当前位置:首页 > 报告详情

哈德逊中心区 – 承载能力地图.pdf

上传人: 山海 编号:627199 2025-04-21 13页 1.63MB

1、Central Hudson Central Hudson Hosting Capacity Hosting Capacity MapsMapsTriana Cano,Assistant EngineerCentral Hudson Distribution Planning&InterconnectionsHosting Capacity MapsSolar PVEnergy StorageElectrificationImpacts on Hosting Capacity Circuit Loading More load on a circuit helps hosting capaci

2、ty for PV and ESS discharging but hurts ESS charging Existing DG More DG on a circuit will hurt hosting capacity,less DG will help Distribution Equipment Depending on the equipment,the devices can help or hurt hosting capacity Hosting capacity takes into account regulation equipment for excessive op

3、eration Conductors A conductor of a larger size will help hosting capacity,but smaller sizes will hurt it due to the conductors rating causing thermal concernsEffects of Distribution EquipmentRegulatorsStep-Down TransformerSolar PV Map TabSection Hosting Capacity is determined by Primary Over-Voltag

4、e Primary Voltage Deviation Regulator Deviation Thermal from Generation Updated monthly with queue dataAll fields are updated annually or semiannually with each hosting capacity analysisIdeal Feeder Option for Solar PV Gradual decrease in hosting capacity downstream of substation High hosting capaci

5、ty at feeder High section hosting capacityAttempting to interconnect a large DER system to a circuit similar to this would likely result in lower upgrade costs and would be less likely to be downsizedWeak Feeder Option for Solar PV Drastic decrease in hosting capacity downstream of substation Low ho

6、sting capacity at feeder Low section hosting capacityAttempting to interconnect a large DER system to a circuit similar to this would likely result in high upgrade costs and possible downsizing or a dedicated feederEnergy Storage Map TabChargingDischargingSubs

word格式文档无特别注明外均可编辑修改,预览文件经过压缩,下载原文更清晰!
三个皮匠报告文库所有资源均是客户上传分享,仅供网友学习交流,未经上传用户书面授权,请勿作商用。
Central Hudson公司发布了关于光伏发电(Solar PV)和储能系统(ESS)的接入容量地图,以及它们对电网的影响。关键点如下: 1. 电网的承载能力(Hosting Capacity)受多种因素影响,包括电路负载、分布式电源(DG)的多少、配电设备性能以及导线尺寸等。 2. 增加电路负载有助于光伏和储能放电的承载能力,但会损害储能充电。 3. 配电设备不同,对承载能力的影响也不同,有的可能有助于承载能力,有的则可能降低。 4. 承载能力考虑了防止设备过度运行的调控设备。 5. 导线尺寸:大尺寸导线有利于承载能力,而小尺寸导线由于其额定值可能引起热问题,从而损害承载能力。 6. 配电设备的性能,如降压变压器的调节、太阳能光伏地图、承载能力分析等都会影响承载能力。 7. 位置对承载能力有显著影响,靠近变电站的位置通常有更高的承载能力和较少的升级需求。 8. 尝试将大型分布式能源资源(DER)系统接入具有急剧下降承载能力的电路可能导致高升级成本和需要缩小规模或建立专用馈线。 综上所述,Central Hudson通过实施新的负载流软件和ESRI GIS地图,不断更新承载能力地图,以优化太阳能光伏和储能系统的接入,并降低电网升级成本。
如何提高太阳能光伏发电的接入容量? 分布式能源资源对电网的影响是什么? 能源存储技术在提高电网承载能力方面的作用是什么?
客服
商务合作
小程序
服务号
折叠