Litcius/Paper detail

Reconciling Observations of Solar Irradiance Variability With Cloud Size Distributions

Wouter Mol, Bart J. H. van Stratum, Wouter Knap, Chiel C. van Heerwaarden

2023Journal of Geophysical Research Atmospheres34 citationsDOIOpen Access PDF

Abstract

Abstract Clouds cast shadows on the surface and locally enhance solar irradiance by absorbing and scattering sunlight, resulting in fast and large solar irradiance fluctuations on the surface. Typical spatiotemporal scales and driving mechanisms of this intra‐day irradiance variability are not well known, hence even 1 day ahead forecasts of variability are inaccurate. Here, we use long‐term, high‐frequency solar irradiance observations combined with satellite imagery, numerical simulations, and conceptual modeling to show how irradiance variability is linked to the cloud size distribution. Cloud shadow sizes are distributed according to a power law over multiple orders of magnitude, deviating only from the cloud size distribution due to cloud edge transparency at scales below ≈750 m. Locally cloud‐enhanced irradiance occurs as frequently as shadows, and is similarly driven mostly by boundary layer clouds, but distributed over a smaller range of scales. We reconcile studies of solar irradiance variability with those on clouds, which brings fundamental understanding to what drives irradiance variability. Our findings have implications not only for weather and climate modeling, but also for solar energy and photosynthesis by vegetation, where detailed knowledge of surface solar irradiance is essential.

Topics & Concepts

IrradianceSolar irradianceEnvironmental scienceCloud coverCloud albedoAtmospheric sciencesCloud computingMeteorologyRemote sensingGeographyGeologyPhysicsOpticsComputer scienceOperating systemSolar Radiation and PhotovoltaicsPlant Water Relations and Carbon DynamicsAtmospheric aerosols and clouds