Journal article

Testing the limits of quasi-geostrophic theory: application to observed laboratory flows outside the quasi-geostrophic regime

Abstract:: We compare laboratory observations of equilibrated baroclinic waves in the rotating two-layer annulus, with numerical simulations from a quasi-geostrophic model. The laboratory experiments lie well outside the quasi-geostrophic regime: the Rossby number reaches unity; the depth-to-width aspect ratio is large; and the fluid contains ageostrophic inertia-gravity waves. Despite being formally inapplicable, the quasi-geostrophic model captures the laboratory flows reasonably well. The model displays several systematic biases, which are consequences of its treatment of boundary layers and neglect of interfacial surface tension and which may be explained without invoking the dynamical effects of the moderate Rossby number, large aspect ratio or inertia-gravity waves. We conclude that quasi-geostrophic theory appears to continue to apply well outside its formal bounds. © 2010 Cambridge University Press.

Publication status:: Published

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APA Style

Williams, P., Read, P., & Haine, T. (2010). Testing the limits of quasi-geostrophic theory: application to observed laboratory flows outside the quasi-geostrophic regime. JOURNAL OF FLUID MECHANICS, 649, 187–203.

MLA Style

Williams, P, et al. “Testing the Limits of Quasi-Geostrophic Theory: Application to Observed Laboratory Flows Outside the Quasi-Geostrophic Regime.” JOURNAL OF FLUID MECHANICS, vol. 649, 2010, pp. 187–203.

Chicago Style

Williams, P, P Read, and T Haine. 2010. “Testing the Limits of Quasi-Geostrophic Theory: Application to Observed Laboratory Flows Outside the Quasi-Geostrophic Regime.” JOURNAL OF FLUID MECHANICS 649: 187–203.
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Publisher copy:: 10.1017/S0022112009993405

Authors

+ Williams, P More by this author

Role:: Author

+ Read, P More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Physics
Sub department:: Atmos Ocean & Planet Physics
Role:: Author

+ Haine, T More by this author

Role:: Author

Journal:: JOURNAL OF FLUID MECHANICS More from this journal
Volume:: 649
Pages:: 187-203
Publication date:: 2010-04-25
DOI:: 10.1017/S0022112009993405
EISSN:: 1469-7645
ISSN:: 0022-1120

Language:: English
Pubs id:: pubs:58676
UUID:: uuid:0f983bae-c1dd-4d48-8616-58b88a3f32b2
Local pid:: pubs:58676
Source identifiers:: 58676
Deposit date:: 2012-12-19
ARK identifier:: ark:/29072/ora_0f983baec1dd4d48861658b88a3f32b2

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Copyright date:: 2010

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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