日晷框架:通过整合能源储存、需求管理和预测实现高渗透太阳能

M. Kromer, Michael Zeifman, K. Roth, T. Yip
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引用次数: 2

摘要

开放的数据交换标准和与供应商无关的控制平台(“日晷系统”)通过优化高渗透太阳能环境下配电系统的功率流,将设施负载和需求管理、电池储能和太阳能光伏集成在一起。通过SunDial实现的客户负荷预测和日前塑造的集成减少了10-20%的存储需求,并在太阳能渗透率从峰值负荷的50%到150%的范围内将LCOE降低了10%。到2019年6月,在一系列用例中,试点部署在国家电网配电馈线上管理1.5兆瓦的光伏、0.5兆瓦/1.0兆瓦的电池和3.5兆瓦的客户负载。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The SunDial Framework: Enabling High Penetration Solar through the Integration of Energy Storage, Demand Management, and Forecasting
An open data exchange standard and vendor-agnostic control platform (the “SunDial System”) are used integrate facility loads and demand management, battery energy storage, and solar PV by optimizing power flow on the distribution system in high-penetration solar environments. The integration of forecasting and dayahead shaping of customer loads enabled by SunDial reduces the need for storage by 10-20% and reduces LCOE by $\sim$10 % at solar penetrations ranging from 50 to 150% of peak load. A pilot deployment manages a portfolio of 1.5MW of PV, 0.5MW/1.0MWh battery, and 3.5 MW of customer load on a National Grid distribution feeder through June 2019 over a range of use cases.
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