Military Energy Resilience Models and Climate: Do Our Models Adequately Consider Climate Risks?

IEEE Open Journal of Systems Engineering Pub Date : 2023-10-16 DOI:10.1109/OJSE.2023.3324699

Ronald E. Giachetti;Douglas L. Van Bossuyt

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Abstract

Military bases must be operationally available to complete their missions regardless of the operational and physical environmental conditions. A key component of maintaining operational availability is a secure and reliable source of energy, which is resilient in the face of a variety of possible threats both natural and man-made. Toward that goal, the U.S. Department of Defense has supported the development of analytical and simulation-based resilience models to support facility managers in assessing and improving the energy resilience of military bases. This article examines how well these models consider climate change into their analyses with a focus on near-term and medium-term climate changes. This article presents a framework describing what it entails for a model to consider climate risks. The evaluation found that the resilience models generally do not sufficiently assess risks due to climate change. This article proposes model characteristics of scenario-based risk assessment to handle the increased uncertainty of climate change and for models to consider second and higher order effects of climate change.

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军事能源弹性模型与气候:我们的模型是否充分考虑了气候风险?

军事基地必须具备完成其任务的作战能力，无论其作战和物理环境条件如何。维持运营可用性的一个关键组成部分是安全可靠的能源来源，这种能源在面对各种可能的自然和人为威胁时具有弹性。为了实现这一目标，美国国防部支持了基于分析和模拟的弹性模型的开发，以支持设施管理人员评估和改善军事基地的能源弹性。本文以近期和中期气候变化为重点，考察了这些模型在分析中如何很好地考虑气候变化。本文提出了一个框架，描述了考虑气候风险的模型需要做些什么。评估发现，复原力模型通常不能充分评估气候变化带来的风险。本文提出了基于情景的风险评估模式特征，以处理气候变化不确定性的增加，并为模式考虑气候变化的二阶和高阶效应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Open Journal of Systems Engineering

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