储能气体调峰替代:最佳规模和环境效益

2022 IEEE Electrical Energy Storage Application and Technologies Conference (EESAT) Pub Date : 2022-11-08 DOI:10.1109/EESAT55007.2022.9998045

A. West, David M. Rosewater

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引用次数: 1

摘要

峰值电厂在一天的高峰时间向电网供电，通常位于边缘社区，在那里，它们的污染与不利的健康后果有关。为优化控制电池储能系统(BESS)与光伏发电(PV)相结合以取代给定的调峰电站，开发了一个线性规划。这个问题是公用事业资源规划者想要权衡经济和非经济权衡的兴趣所在。在优化后的成本效益分析中包含能源公平(EJ)指标。新墨西哥州的一个案例研究结果表明，用BESS+PV系统取代给定峰值电厂的大部分功能既具有成本效益，又大大减少污染对健康的影响和二氧化碳排放对气候经济的影响。

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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Energy Storage Gas Peaker Replacement: Optimal Sizing and Environmental Benefits

Peaker plants provide power to the grid at peak times of the day and are often located in marginalized communities where their pollution has been linked with adverse health outcomes. A linear program is developed to optimally size and control a battery energy storage system (BESS) combined with photovoltaics (PV) to replace a given peaker plant. This problem is of interest to utility resource planners wanting to weigh both economic and non-economic trade offs. An energy justice (EJ) metric is included in a post-optimization cost-benefit analysis. The results for a case study in New Mexico indicates that replacing most of the functionality of a given peaker plant with a BESS+PV system would be both cost effective and greatly reduce the health impacts of pollution and climate-economic impacts of CO2 emissions.

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2022 IEEE Electrical Energy Storage Application and Technologies Conference (EESAT)

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