In the realm of boundary layer flows in complex terrain, low-level jets (LLJs) have received considerable attention, although little literature is available for double-nosed LLJs that remain not well understood. To this end, we use the Mountain Terrain Atmospheric Modeling and Observations (MATERHORN) dataset to demonstrate that double-nosed LLJs developing within the planetary boundary layer (PBL) are common during stable nocturnal conditions and present two possible mechanisms responsible for their formation. It is observed that the onset of a double-nosed LLJ is associated with a temporary shape modification of an already-established LLJ. The characteristics of these double-nosed LLJs are described using a refined version of identification criteria proposed in the literature, and their formation is classified in terms of two driving mechanisms. The wind-driven mechanism encompasses cases where the two noses are associated with different air masses flowing one on top of the other. The wave-driven mechanism involves the vertical momentum transport by an inertial–gravity wave to generate the second nose. The wave-driven mechanism is corroborated by the analysis of nocturnal double-nosed LLJs, where inertial–gravity waves are generated close to the ground by a sudden flow perturbation.

Luigi Brogno, F.B. (2021). Driving Mechanisms of Double-Nosed Low-Level Jets during MATERHORN Experiment. JOURNAL OF THE ATMOSPHERIC SCIENCES, 78(12), 4037-4051 [10.1175/JAS-D-20-0274.1].

Driving Mechanisms of Double-Nosed Low-Level Jets during MATERHORN Experiment

Luigi Brogno;Francesco Barbano
;
Laura Sandra Leo;Silvana Di Sabatino
2021

Abstract

In the realm of boundary layer flows in complex terrain, low-level jets (LLJs) have received considerable attention, although little literature is available for double-nosed LLJs that remain not well understood. To this end, we use the Mountain Terrain Atmospheric Modeling and Observations (MATERHORN) dataset to demonstrate that double-nosed LLJs developing within the planetary boundary layer (PBL) are common during stable nocturnal conditions and present two possible mechanisms responsible for their formation. It is observed that the onset of a double-nosed LLJ is associated with a temporary shape modification of an already-established LLJ. The characteristics of these double-nosed LLJs are described using a refined version of identification criteria proposed in the literature, and their formation is classified in terms of two driving mechanisms. The wind-driven mechanism encompasses cases where the two noses are associated with different air masses flowing one on top of the other. The wave-driven mechanism involves the vertical momentum transport by an inertial–gravity wave to generate the second nose. The wave-driven mechanism is corroborated by the analysis of nocturnal double-nosed LLJs, where inertial–gravity waves are generated close to the ground by a sudden flow perturbation.
2021
Luigi Brogno, F.B. (2021). Driving Mechanisms of Double-Nosed Low-Level Jets during MATERHORN Experiment. JOURNAL OF THE ATMOSPHERIC SCIENCES, 78(12), 4037-4051 [10.1175/JAS-D-20-0274.1].
Luigi Brogno, Francesco Barbano, Laura Sandra Leo, Harindra JS Fernando, Silvana Di Sabatino
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/840737
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