A total energy error analysis of dynamical cores and physics‐dynamics coupling in the Community Atmosphere Model (CAM)
Lauritzen, P. H., & Williamson, D. (2019). A total energy error analysis of dynamical cores and physics‐dynamics coupling in the Community Atmosphere Model (CAM). Journal Of Advances In Modeling Earth Systems, 11, 1309-1328. doi:10.1029/2018MS001549
A closed total energy (TE) budget is of utmost importance in coupled climate system modeling; in particular, the dynamical core or physics‐dynamics coupling should ideally not lead to spurious TE sources/sinks. To assess this in a global climate model, a detailed analysis of the spurious sources/... Show moreA closed total energy (TE) budget is of utmost importance in coupled climate system modeling; in particular, the dynamical core or physics‐dynamics coupling should ideally not lead to spurious TE sources/sinks. To assess this in a global climate model, a detailed analysis of the spurious sources/sinks of TE in the National Center for Atmospheric Research's Community Atmosphere Model (CAM) is given. This includes spurious sources/sinks associated with the parameterization suite, the dynamical core, TE definition discrepancies, and physics‐dynamics coupling. The latter leads to a detailed discussion of the pros and cons of various physics‐dynamics coupling methods commonly used in climate/weather modeling. Show less