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Solar PV interconnection analyses have historically been addressed by analyzing one or two PV system interconnection requests at a time. As higher penetration levels and numbers of PV systems are realized, the ability to efficiently model and analyze large numbers of PV system deployments and scenarios becomes increasingly important yet difficult. Time and spatial impacts along with uncertainty in...
The interconnection of distributed resources on the electric grid has steadily been growing over the past few years with distribution planners seeing a significant number of requests for distributed wind and solar PV. In order to effectively evaluate renewable resources on the distribution system, either large-scale or small-scale projects at high-penetration levels, certain characteristics unique...
Distributed resource adoption coupled with smart grid implementations is expected to significantly alter the nature of the distribution system. However, traditional distribution models and analysis techniques are not capable of capturing the relevant temporal and spatial characteristics associated these devices. As a result, new models and analyses are needed to permit distribution planners to access...
Small- and large-scale wind and solar photovoltaic (PV) generation systems are interconnecting to the distribution system at a rapid pace. Penetration limits are often imposed due to the impact these additional distributed resource can have on voltage. In order to accommodate high penetration scenarios without impacting power quality or reliability, additional control functions must be utilized. A...
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