多能量载体微电网弹性运行

Saeed D. Manshadi, M. Khodayar
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引用次数: 0

摘要

本文提出了一种识别脆弱组件的方法,并在考虑微电网内部多重中断的情况下,确保电力和天然气基础设施的协调运行。微电网需求由电力和热力需求组成,由相互依赖的电力和天然气供应来满足。该方法解决了多个能量载体微电网在各种干扰下的脆弱性,通过预防性加固来提高能量供应的弹性,降低运行成本。提出的方法是一个双级优化问题,以解决多个能量载体微电网的优化和安全运行。天然气和电力基础设施之间的相互依存关系是为了显示所提出的方法在提高发电和需求调度的弹性方面的有效性,以防止在多个能源载体微电网中相互依存的能源基础设施中故意造成破坏的行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Resilient operation of multiple energy carrier microgrids
This paper proposed a methodology to identify the vulnerable components, and ensure the resilient operation of coordinated electricity and natural gas infrastructures considering multiple disruptions within the microgrid. The micro-grid demands, which consist of electricity and heat demands, are served by the interdependent electricity and natural gas supplies. The proposed approach addressed the vulnerability of multiple energy carrier microgrids against various inter-dictions, which is used to apply preventive reinforcements to increase the resilience of energy supply and decrease the operation cost. The proposed methodology is formulated as a bi-level optimization problem to address the optimal and secure operation of multiple energy carrier microgrids. The interdependence between natural gas and electricity infrastructures is addressed to show the effectiveness of the presented methodology in improving the resilience of generation and demand scheduling against deliberate actions causing disruptions in the interdependent energy infrastructures in multiple energy carrier microgrids.
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