肯尼亚风电场与储能相结合的随机优化管理方法

Maureen Murage, M. Gabriela Martinez, C. Lindsay Anderson
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引用次数: 0

摘要

由于风的不可调度特性,风力发电场日前电量承诺难以精确确定。风电场与存储单元的耦合有利于组合输出的可控性,并允许改进的前瞻性承诺。对于电力系统而言,提前承诺提高了调度能力,特别是在高风侵彻水平下。这对肯尼亚来说尤其重要,因为肯尼亚的风力发电量预计将增加到预计总装机容量的10%。为了解决这一改进前瞻性承诺的需求,本文开发了一个两阶段随机模型,以确定具有可用存储的图尔卡纳湖风力发电项目的最佳日前电力承诺和日内运行,同时考虑到肯尼亚电力市场的独特结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A stochastic approach to the optimal management of a Kenyan wind farm coupled with storage
Day-ahead power commitment of a wind farm is difficult to precisely determine due to wind's non-dispatachable nature. The coupling of a wind farm with a storage unit favors controllability of the combined output and allows for improved look ahead commitment. For the power system, advance commitment enhances scheduling, especially at high wind penetration levels. This is particularly important in the case of Kenya where wind power production is expected to increase to 10% of total projected installed capacity. To address this need for improved look-ahead commitment, this paper develops a two-stage stochastic model to determine optimal day-ahead power commitment and intra-day operation of the combined Lake Turkana Wind Power project with available storage, taking into account the unique structure of the Kenyan power market.
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