University of Hertfordshire

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Original languageEnglish
Number of pages25
Pages (from-to)291-315
JournalBoundary-Layer Meteorology
Journal publication date1 Aug 2019
Volume172
Issue2
Early online date4 Apr 2019
DOIs
Publication statusPublished - 1 Aug 2019

Abstract

We quantify the impact of a valley-wind system on the transport of passive tracers in the stably-stratified atmosphere of a valley dynamically decoupled from the atmosphere above. The simple configuration of an idealized Alpine-type valley opening onto a plain is considered, for two values of the initial buoyancy frequency and of the valley steepness. The valley-wind system consists of thermally-driven downslope flows that induce a pressure difference between the valley interior and the plain, thereby triggering a down-valley flow. A steady-state regime is eventually reached, at the beginning of which passive tracers are emitted at the valley floor and at different heights above it. The tracer emitted at the valley floor is fully mixed below the height of the maximum speed of the down-valley flow, which behaves like a jet, and remains decoupled from the tracers emitted above. The down-valley flow increases linearly in the along-valley direction y so that, from the conservation of tracer flux, the tracer concentration decays as 1/y. A simple theoretical model is proposed to fully account for the down-valley flow and tracer behaviour. The tracer concentration emitted at the valley floor also displays marked oscillations, induced by internal gravity waves radiated via a hydraulic-jump process when the downslope flow reaches the valley floor. The amplitude of the oscillations can be as high as 50% of their mean value, implying that averaged values in an urbanized valley may disguise high instantaneous—and potentially harmful-values.

Notes

© Springer Nature B.V. 2019

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