Journal of Advances in Modeling Earth Systems (Nov 2022)

Spanning the Gap From Bulk to Bin: A Novel Spectral Microphysics Method

  • E. K. deJong,
  • T. Bischoff,
  • A. Nadim,
  • T. Schneider

DOI
https://doi.org/10.1029/2022MS003186
Journal volume & issue
Vol. 14, no. 11
pp. n/a – n/a

Abstract

Read online

Abstract Microphysics methods for climate models and numerical weather prediction typically track one, two, or three moments of a droplet size distribution for various categories of liquid, ice, and aerosol. Such methods rely on conversion parameters between these categories, which introduces uncertainty into predictions. While higher‐fidelity options such as bin and Lagrangian schemes exist, they require too many degrees of freedom for climate modeling applications and introduce numerical challenges. Here we introduce a flexible spectral microphysics method based on collocation of basis functions. This method generalizes to a linear bulk scheme when using few basis functions and to a smoothed bin scheme with more degrees of freedom. Tested in an idealized box setting, the method improves spectral accuracy for droplet collision‐coalescence and may eliminate the need for precipitation autoconversion rates required by bulk methods; furthermore, it generalizes well to multimodal distributions with less complexity than a bin method. The potential to extend this collocation representation to multiple hydrometeor classes suggests a path forward to unify liquid, ice, and aerosol microphysics in a single, flexible, computational framework for climate modeling.

Keywords