Abstract
If rooftop-installed solar energy systems generate more energy than locally consumed, the excess is fed into the electricity grid, increasing the voltage. Rising penetration levels of solar photovoltaic (PV) systems increase voltage levels, thereby threatening power quality. The extent to which solar PV cause grid issues in actual, nation-wide distribution grids, and how these issues correlate with cloud conditions and irradiance variability has yet to be quantified. This work provides a spatial and temporal characterization of overvoltage events linked to solar PV, using novel data sources. The analysis is based on over 200,000 events from advanced metering infrastructure (AMI) spanning 1/3rd of the Netherlands, combined with satellite observations and 1-minute irradiance measurements. As a result, we find that the typical duration of overvoltage events is in the order of 5 min, and frequently-reporting meters are geographically dispersed. While overvoltages are driven by high PV generation, we do not find evidence that local, short-term irradiance peaks result in additional events as compared to clear sky conditions. However, we do find that median overvoltage event occurrence on Sundays is more than 2.1 times that of weekdays, which can be related to low energy consumption. Our findings indicate PV hosting capacity to be reached throughout the service area simultaneously, and surprisingly show no reduction in event duration by inverter- or grid control. Notably, while a sharp increase in occurrence is observed, overvoltage events are still scarce in absolute terms, with only 0.1% of the AMI reporting more than 10 events in spring-summer 2020.
Highlights
The penetration level of household photovoltaics (PV) is increasing
This study presents a characterization of solar PV induced over voltage events reported by advanced metering infrastructure (AMI), in relation to clouds and irradiance variability
This work provides a thorough characterization of overvoltage events in the distribution grid due to solar PV on a nation-wide scale, using novel data sources
Summary
The penetration level of household photovoltaics (PV) is increasing. This in turn increases the occurrence of overvoltages, when photovoltaic (PV) feed-in minus local energy consumption exceeds grid constraints. Dis tribution system operators (DSO’s) have few to no measurements available in the low-voltage network for assessing the power quality (Abur & Exposito, 2004) (Zarco & Exposito, 2000) and are only informed of issues when end-users file a complaint with their grid operator. This lack of measurements from actual grids poses a challenge to the academic community as well, frequently limiting the scope of research to idealized, lab-condition grids, or labor-intensive small-scale case studies (Cobben, Gaiddon, & Laukamp, 2008). PV related power quality issues are driven by regional meteorology (i.e. clouds) of which observations at high spatial and temporal resolution are scarce (Driemel, et al, 2018)
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