This article develops a method to model, analyze, and design military microgrids with the objective to improve their resilience in the face of disconnections from the larger electrical grid. Military microgrids provide power to installation and base facilities to enable base mission objective accomplishments that are related to national security. Previous research, tools, and methods for microgrid design and assessment do not adequately address resilience in terms of accomplishing mission objectives and instead primarily focus on economic outcomes. This article proposes a novel metric to quantify microgrid resilience in terms of its ability to minimize the impact of power disruption on missions supported by the microgrid. The metric is used in a novel design method to ensure an islanded military microgrid can continue operations while disconnected for a two-week duration. Our model examines the ability to continue mission operations subject to various microgrid disruptions as well as equipment reliability.

中文翻译：

---

分析军事设施微电网对恢复力的任务影响

本文开发了一种建模、分析和设计军用微电网的方法，目的是提高它们在与较大电网断开时的恢复能力。军用微电网为设施和基地设施提供电力，以实现与国家安全相关的基地任务目标。先前用于微电网设计和评估的研究、工具和方法在完成任务目标方面没有充分解决弹性问题，而是主要关注经济成果。本文提出了一种新的指标来量化微电网的弹性，以最大限度地减少电力中断对微电网支持的任务的影响。该指标用于一种新颖的设计方法，以确保孤岛式军用微电网在断开连接的情况下可以继续运行两周。我们的模型检查了在各种微电网中断以及设备可靠性的情况下继续执行任务的能力。