Document Type

Article

Publication Date

2017

Publication Title

Journal of Advances in Modeling Earth Systems

ISSN

1942-2466

Volume

9

Issue

4

DOI

http://dx.doi.org/10.1002/2017MS000912

Abstract

Multiscale atmospheric simulations can be computationally prohibitive, as they require large domains and fine spatiotemporal resolutions. Grid‐nesting can alleviate this by bridging mesoscales and microscales, but one turbulence scheme must run at resolutions within a range of scales known as the terra incognita (TI). TI grid‐cell sizes can violate both mesoscale and microscale subgrid‐scale parametrization assumptions, resulting in unrealistic flow structures. Herein we assess the impact of unrealistic lateral boundary conditions from parent mesoscale simulations at TI resolutions on nested large eddy simulations (LES), to determine whether parent domains bias the nested LES. We present a series of idealized nested mesoscale‐to‐LES runs of a dry convective boundary layer (CBL) with different parent resolutions in the TI. We compare the nested LES with a stand‐alone LES with periodic boundary conditions. The nested LES domains develop ∼20% smaller convective structures, while potential temperature profiles are nearly identical for both the mesoscales and LES simulations. The horizontal wind speed and surface wind shear in the nested simulations closely resemble the reference LES. Heat fluxes are overestimated by up to ∼0.01 K m s −1 in the top half of the PBL for all nested simulations. Overestimates of turbulent kinetic energy (TKE) and Reynolds stress in the nested domains are proportional to the parent domain's grid‐cell size, and are almost eliminated for the simulation with the finest parent grid‐cell size. Based on these results, we recommend that LES of the CBL be forced by mesoscale simulations with the finest practical resolution. Grid‐nesting enables coupling between mesoscale and LES models LES nested within unrealistic mesoscale models of the CBL require a long fetch (∼30–40 km) to reach stable turbulent statistics LES nest performance improves with increasing mesoscale parent resolution

Creative Commons License

Creative Commons Attribution-Noncommercial-No Derivative Works 4.0 License
This work is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 4.0 License.

Share

COinS