Journal ArticleDOI
The spray contribution to net evaporation from the sea: a review of recent progress
TLDR
In this paper, the authors use Eulerian and Lagrangian models and a simple analytical model to study the processes important in spray dispersion and evaporation within the droplet eva-oration layer (DEL).Abstract:
The part that sea spray plays in the air-sea transfer of heat and moisture has been a controversial question for the last two decades. With general circulation models (GCMs) suggesting that perturbations in the Earth's surface heat budget of only a few W m−2 can initiate major climatic variations, it is crucial that we identify and quantify all the terms in that heat budget. Thus, here we review recent work on how sea spray contributes to the sea surface heat and moisture budgets. In the presence of spray, the near-surface atmosphere is characterized by a droplet evaporation layer (DEL) with a height that scales with the significant-wave amplitude. The majority of spray transfer processes occur within this layer. As a result, the DEL is cooler and more moist than the atmospheric surface layer would be under identical conditions but without the spray. Also, because the spray in the DEL provides elevated sources and sinks for heat and moisture, the vertical heat fluxes are no longer constant with height. We use Eulerian and Lagrangian models and a simple analytical model to study the processes important in spray droplet dispersion and evaporation within this DEL. These models all point to the conclusion that, in high winds (above about 15 m/s), sea spray begins to contribute significantly to the air-sea fluxes of heat and moisture. For example, we estimate that, in a 20-m/s wind, with an air temperature of 20°C, a sea surface temperature of 22°C, and a relative humidity of 80%, the latent and sensible heat fluxes resulting from the spray alone will have magnitudes of order 150 and 15 W/m2, respectively, in the DEL. Finally, we speculate on what fraction of these fluxes rise out of the DEL and, thus, become available to the entire marine boundary layer.read more
Citations
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Journal ArticleDOI
Bulk Parameterization of Air–Sea Fluxes: Updates and Verification for the COARE Algorithm
TL;DR: The Coupled Ocean-Atmosphere Response Experiment (COARE) bulk algorithm was published in 1996, and it has become one of the most frequently used algorithms in the air-sea interaction community.
Journal ArticleDOI
Marine aerosol, sea-salt, and the marine sulphur cycle: a short review
TL;DR: A short review of the marine aerosol size distribution and the contribution of sea-salt to this distribution is presented in this paper, where the potential role of sea salt in the marine boundary layer sulphur cycle is highlighted.
Book
Sea Salt Aerosol Production: Mechanisms, Methods, Measurements, and Models - A Critical Review
TL;DR: In this paper, Sea salt aerosol (SSA) particles interact with other atmospheric gaseous and aerosol constituents by acting as sinks for condensable gases and suppressing new particle formation, thus influencing the size distribution of other aerosols and more broadly influencing the geochemical cycles of substances with which they interact.
Book
Parameterization Schemes: Keys to Understanding Numerical Weather Prediction Models
TL;DR: In this article, the authors present a list of principal symbols and abbreviations for parameterization schemes and their application in the terrestrial environment, including land surface-atmosphere parameterizations, water-surface-layer and turbulence parameterizations.
Journal ArticleDOI
A New Sea Spray Generation Function for Wind Speeds up to 32 m s−1
TL;DR: In this paper, the uncertainty over the spray generation function, especially in high winds, is a major obstacle in the analysis of spray heat transfer in the air-sea interface, and the Smith function is used to predict the production of sea spray droplets with radii from 2 to 500 μm for 10m winds from 0 to 32.5 m s−1.
References
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