SolarAnywhere® Particulate Matter DataSite-specific particulate matter data to support soiling loss modeling
Particulate matter, also known as particle pollution or “PM,” is a mixture of small particles and liquid droplets suspended in the air.1 These particles may include dust, dirt, soot, smoke or other organic and inorganic compounds. Depending on the size of the particles, particulate matter can be categorized into:
- Particles with diameter less than or equal to 10 micrometers, known as PM10
- Particles with diameter less than or equal to 2.5 micrometers, known as PM2.5
SolarAnywhere particulate matter data is expressed in units of micrograms per meter cubed (μg/m3).
Particulate matter such as dust and soil can settle on PV panels, obstructing sunlight from reaching the solar cells. This can result in energy losses due to module soiling, commonly referred to as “soiling losses.” A number of studies have documented the impact of particulate matter on PV performance.2; 3 Notably, an NREL study found that in comparison with other environmental and meteorological parameters such as precipitation and wind direction, particulate matter (PM10 and PM2.5) has the highest correlation with soiling losses. Time-series simulation of soiling losses using PM data is available in solar simulation tools such as pvlib.
SolarAnywhere offers PM10 and PM2.5 particulate matter data to support soiling loss modeling. The data is based on an NASA Modern-Era Retrospective analysis for Research and Applications (MERRA-2) reanalysis and has a spatial resolution of 50 km x 62.5 km nominal (0.5 degrees x 0.625 degrees). SolarAnywhere customers can access particulate matter data with SolarAnywhere v3.5 and newer weather data versions. The data is available globally from January 1, 1998, and is updated monthly with SolarAnywhere historical data (approximately 1-2 months lag from real time).
SolarAnywhere particulate matter data is created in two main steps:
- Surface aerosol concentrations are extracted from the MERRA-2 dataset. These include key constituents of particulate matter such as dust, sulfate, organic carbon, black carbon and sea salt.
- A weighted combination of surface aerosols is then used to generate the total PM10 and PM2.5 concentrations at a location. This process, referred to as particulate matter reconstruction, leverages previous research comparing MERRA-2 data with ground-based measurements.4; 5
Using SolarAnywhere particulate matter data
For convenience, SolarAnywhere particulate matter data is available with both typical year (TGY/TDY/average year) and time-series data. Since the accumulation of particulate matter on PV panels is a cumulative process, time-series data may be more accurate for modeling site-specific soiling losses.
SolarAnywhere uses industry-leading methods for generating particulate matter data; however, users should note the limitations of particulate matter data derived from remote sources, and how the data compares with ground-based measurements.
Previous studies by NASA6 and Buchard et al.7 evaluated MERRA-2 surface PM2.5 on a global scale. In these studies, the monthly-mean PM2.5 data from MERRA-2 was compared with observations from the U.S. Environmental Protection Agency (EPA) Air Quality System (AQS) and the National Park Service’s Interagency Monitoring of Protected Visual Environments (IMPROVE) networks.6 The studies found that small particulate mass (PM2.5) in MERRA-2 generally agrees well with observations. General agreement was also found between MERRA-2 simulated PM10 and observed values at Cayenne in French Guiana.
Ground-based particulate matter or soiling measurements may be more precise than what’s derived from remote sources; however, accurate ground-based measurements can be challenging to obtain. NREL found that particulate matter measurements within 30 km to 50 km of a project show a reasonable correlation with soiling losses. Correlations, however, drop significantly in some cases for measurements beyond 100 km. In contrast to ground-based measurements, modeled particulate matter and losses data is available on demand through the SolarAnywhere platform.
Particulate matter data is now available with all data licenses online through data.solaranywhere.com