Distinct Mixing Regimes in Shallow Cumulus Clouds

Yael Arieli; Eshkol Eytan; Orit Altaratz; Alexander Khain; Ilan Koren

doi:10.1029/2023GL105746

Distinct Mixing Regimes in Shallow Cumulus Clouds

Yael Arieli, Eshkol Eytan, Orit Altaratz, Alexander Khain^*, Ilan Koren^*

^*Corresponding author for this work

Fredy & Nadine Herrmann Institute of Earth Sciences

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Understanding the nature of mixing between cloudy air and its surroundings is an important and yet, open question. In this research, we use high-resolution (10 m) bin-microphysics Large Eddy Simulation of a cumulus cloud, together with a Lagrangian passive tracer tracking method, to study mixing. We analyze the passive tracers as a function of their trajectories and the thermodynamic conditions they undergo inside and outside the cloud. Three main mixing regimes (core, periphery, and skin) are identified, each determining a subset of tracers with similar trajectories. These mixing regimes can be observed throughout the cloud's lifetime and they provide evidence for the presence of an undiluted core in shallow cumulus clouds. At the dissipation stage, a fourth regime is identified: cloud-top entrainment followed by downdrafts.

Original language	English
Article number	e2023GL105746
Journal	Geophysical Research Letters
Volume	51
Issue number	2
DOIs	https://doi.org/10.1029/2023GL105746
State	Published - 28 Jan 2024

Bibliographical note

Publisher Copyright:
© 2024. The Authors.

Keywords

cloud
cumulus
mixing
tracers

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10.1029/2023GL105746

Cite this

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abstract = "Understanding the nature of mixing between cloudy air and its surroundings is an important and yet, open question. In this research, we use high-resolution (10 m) bin-microphysics Large Eddy Simulation of a cumulus cloud, together with a Lagrangian passive tracer tracking method, to study mixing. We analyze the passive tracers as a function of their trajectories and the thermodynamic conditions they undergo inside and outside the cloud. Three main mixing regimes (core, periphery, and skin) are identified, each determining a subset of tracers with similar trajectories. These mixing regimes can be observed throughout the cloud's lifetime and they provide evidence for the presence of an undiluted core in shallow cumulus clouds. At the dissipation stage, a fourth regime is identified: cloud-top entrainment followed by downdrafts.",

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AU - Arieli, Yael

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AU - Altaratz, Orit

AU - Khain, Alexander

AU - Koren, Ilan

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AB - Understanding the nature of mixing between cloudy air and its surroundings is an important and yet, open question. In this research, we use high-resolution (10 m) bin-microphysics Large Eddy Simulation of a cumulus cloud, together with a Lagrangian passive tracer tracking method, to study mixing. We analyze the passive tracers as a function of their trajectories and the thermodynamic conditions they undergo inside and outside the cloud. Three main mixing regimes (core, periphery, and skin) are identified, each determining a subset of tracers with similar trajectories. These mixing regimes can be observed throughout the cloud's lifetime and they provide evidence for the presence of an undiluted core in shallow cumulus clouds. At the dissipation stage, a fourth regime is identified: cloud-top entrainment followed by downdrafts.

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Distinct Mixing Regimes in Shallow Cumulus Clouds

Abstract

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Keywords

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