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评估储能作为输电资产的可靠性效益
Assessing the Reliability Benefits of Energy Storage as a Transmission Asset
| 作者 | David Sehloff · Jonghwan Kwon · Mahdi Mehrtash · Todd Levin · Benjamin F. Hobbs |
| 期刊 | IEEE Transactions on Industry Applications |
| 出版日期 | 2024年10月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 可靠性分析 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 储能解决方案 传统输电投资 可靠性评估 扩展规划模型 系统可靠性 |
语言:
中文摘要
近年来,系统规划者已认识到利用储能解决方案来减少对传统输电投资的需求,并且这一做法得到了联邦政策的支持。本研究表明,需要进行详细的可靠性评估,以便对储能和传统输电投资的可靠性效益进行定量比较。首先,求解一个考虑候选输电线路和储能技术的混合整数线性规划扩展规划模型,以确定成本最低的投资决策。接下来,在考虑与天气相关的强迫停运的概率可靠性评估中,对由此产生的系统配置下的运行情况进行模拟。将这项研究成果应用于输电规划方案(TPPs)时,可通过考量储能对系统可靠性的价值,进一步使储能与传统输电资产在评估中得到同等的考量。
English Abstract
Utilizing energy storage solutions to reduce the need for traditional transmission investments has been recognized by system planners and supported by federal policies in recent years. This work demonstrates the need for detailed reliability assessment for quantitative comparison of the reliability benefits of energy storage and traditional transmission investments. First, a mixed-integer linear programming expansion planning model considering candidate transmission lines and storage technologies is solved to find the least-cost investment decisions. Next, operations under the resulting system configuration are simulated in a probabilistic reliability assessment which accounts for weather-dependent forced outages. The outcome of this work, when applied to TPPs, is to further equalize the consideration of energy storage compared to traditional transmission assets by capturing the value of storage for system reliability.
S
SunView 深度解读
该研究对阳光电源ST系列储能变流器和PowerTitan大型储能系统的输电侧应用具有重要指导价值。研究量化了储能在缓解输电阻塞、延缓基础设施升级方面的可靠性贡献,可直接应用于阳光电源输电侧储能解决方案的技术优化。通过建模方法可增强iSolarCloud平台的可靠性评估功能,为电网规划客户提供储能替代传统输电扩容的成本效益分析工具。研究中的系统韧性提升策略可指导构网型GFM控制技术在输电级储能中的应用,支撑阳光电源在电网现代化转型中的储能系统集成方案开发,提升产品在输电资产替代场景下的市场竞争力。