Article

Limits on the Rate of Conversion of Potential to Kinetic Energy in Quasigeostrophic Turbulence

Public Deposited
https://scholar.colorado.edu/concern/articles/1v53jz45k
Abstract
  •  

    Flow configurations that maximize the instantaneous rate of conversion from potential to kinetic energy are sought using a combination of analytical and numerical methods. A hydrostatic model is briefly investigated, but the presence of unrealistic ageostrophic flow configurations renders the results unrealistic. In the quasigeostrophic (QG) model, flow configurations that locally optimize the conversion rate are found, but it remains unclear if these flow configurations produce the global maximum conversion rate. The difficulty is associated with the fact that in the QG model, the vertical velocity is a quadratic function of the QG streamfunction, which renders the conversion rate a cubic function of the QG streamfunction. For these locally maximal conversion rates, the rate of conversion depends on the horizontal length scale of the flow: for scales larger than the deformation radius, the maximal rates are small and decrease as the horizontal scale increases; for scales smaller than the deformation radius, the maximal conversion rate rises until it becomes comparable to the maximal rate at which potential energy can be extracted from the mean flow.
Creator
Date Issued
  • 2022
Academic Affiliation
Journal Title
Journal Issue/Number
  • 8
Journal Volume
  • 7
Last Modified
  • 2024-02-05
Resource Type
Rights Statement
License
DOI
ISSN
  • 2311-5521
Language

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