Distributed energy resources (DERs) can serve as non-wire alternatives to capacity expansion by managing peak load to avoid or defer traditional expansion projects. In this paper, we study a planning problem that co-optimizes DERs investment and operation (e.g., energy efficiency, energy storage, demand response, solar photovoltaic) and the timing of capacity expansion. We formulate the problem as a large scale (in the order of millions of variables because we model the operation of DERs over a period of decades) non-convex optimization problem. Despite its non-convexities, we find its optimal solution by decomposing it using the Dantzig-Wolfe Decomposition Algorithm and solving a series of small linear problems. Finally, we present a real planning problem at the University of Washington Seattle Campus.
翻译:分散的能源资源(DERs)可以通过管理峰值负荷来避免或推迟传统的扩展项目,作为能力扩展的非电路替代物。在本文件中,我们研究了一个规划问题,它优化了DERs的投资和运营(例如能源效率、能源储存、需求反应、太阳能光伏发电)以及能力扩展的时机。我们将这个问题作为一个大范围(以百万个变量为单位,因为我们模拟了DERs在几十年中的运行)非电流优化问题。尽管它不具有共性,但我们通过使用Dantzig-Wolfe Decomposition Algorithm和解决一系列小型线性问题,找到了最佳解决办法。最后,我们在华盛顿西雅图大学校园提出了一个真正的规划问题。
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