Journal ArticleDOI
Numerical modelling of the offshore extent of sea breezes
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TLDR
In this article, two-and three-dimensional versions of a nonlinear atmospheric model were used to investigate environmental controls on the offshore influence of sea-breeze circulations.Abstract:
Two- and three-dimensional versions of a nonlinear atmospheric model were used to investigate environmental controls on the offshore influence of sea-breeze circulations. The temperature of the water surface relative to the atmospheric temperature had a small effect when the water was colder than the overlying air, and a greater effect when the water temperature was high enough to create convective mixing in the planetary boundary layer over the water. Ambient thermal stratification, including elevated inversions with thermal stratification similar to trade wind inversions, had a small influence. The predicted offshore extent of the sea breeze was substantially affected by latitude. The effects of both ambient stratification and latitude were generally consistent with predictions of linear theory. Prevailing synoptic winds were also found to have a significant effect on the sea breeze offshore, with offshore influence greatly suppressed by onshore large-scale flow. Curvature of the coastline produces slightly stronger winds offshore for a concave coast than for a convex coast. The subsidence offshore also extends further over the water for a concave coast than for a convex coast.
The model predictions were compared with previous investigations which used linear theory. It was found that the present results agreed with the linear theory of R. Rotunno with regard to the effects of latitude and ambient thermal stability. Linear theory is less suitable for explaining the effects of water temperature, owing to the simplified treatment of turbulent exchange necessary for a tractable linear model.read more
Citations
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Review: the atmospheric boundary layer
TL;DR: An overview of the atmospheric boundary layer (ABL) over both continental and ocean surfaces, mainly from observational and modelling perspectives, is given in this paper, where the authors present exciting challenges so far as improved understanding of ABL behaviour and improved representation of the ABL in numerical models of the atmosphere are concerned.
Journal ArticleDOI
Sea and Lake Breezes: A Review of Numerical Studies
Erik T. Crosman,John D. Horel +1 more
TL;DR: Numerical studies of sea and lake breezes are reviewed in this paper, with a brief history of numerical modelling, an overview of recent high-resolution simulations, and suggestions for future research related to sea- and lake-breezes are also presented.
Journal ArticleDOI
A complete sea-breeze circulation cell derived from aircraft observations
TL;DR: Using an instrumented aircraft, a complete sea-breeze circulation cell was sampled from its offshore end to the seafloor front over land and up to a height of approximately 1000 m AMSL as discussed by the authors.
Journal ArticleDOI
Regional Rainfall Climatologies Derived from Special Sensor Microwave Imager (SSM/I) Data
TL;DR: In this paper, the authors used a scattering-based algorithm of Adler et al. to estimate the convective precipitation from passive microwave observations from the Special Sensor Microwave Imager using data from 4 to 5 years.
Journal ArticleDOI
Sea-Breeze Circulation over Jakarta, Indonesia: A Climatology Based on Boundary Layer Radar Observations
TL;DR: In this article, an analysis of satellite images and data from long-term L-band boundary layer radar measurements carried out at Serpong (6.4°S, 106.7°E) was conducted to study the characteristics of sea-breeze circulation over the tropical site of Jakarta, Indonesia.
References
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Flux-Profile Relationships in the Atmospheric Surface Layer
TL;DR: In this article, the free constants in several interpolation formulas can be adjusted to give excellent fits to the wind and temperature gradient data, and the behavior of the gradients under neutral conditions is unusual, however, and indicates that von Karman's constant is ∼0.35, rather than 0.40 as usually assumed, and that the ratio of eddy diffusivities for heat and momentum at neutrality is ∼1.0.
Journal ArticleDOI
A parametric model of vertical eddy fluxes in the atmosphere
TL;DR: In this paper, a model for the representation of vertical eddy fluxes of heat, momentum and water vapour in a forecast model is presented, and two tests are presented, using the scheme in a one-dimensional model: the simulation of the diurnal cycle and the transformation of a polar air mass moving over the warm sea.
Journal ArticleDOI
Wind stress on a water surface
TL;DR: In this paper, the vertical distribution of horizontal mean wind in the lowest 8 metres over a reservoir (1·6 km × 1 km) has been measured using sensitive anemometers freely exposed from a fixed mast in water 16 m deep, the fetch being more than 1 km.
Book
Mesoscale meteorological modeling
TL;DR: The 3rd edition of Mesoscale Meteorological Modeling as mentioned in this paper is a fully revised resource for researchers and practitioners in the growing field of meteorological modeling at the mesoscale Pielke has enhanced the new edition by quantifying model capability by a detailed evaluation of the assumptions of parameterization and error propagation.
Journal ArticleDOI
Frequency Filter for Time Integrations
TL;DR: In this article, a simple filter for controlling high-frequency computational and physical modes arising in time integrations is proposed, and a linear analysis of the filter with leapfrog, implicit, and semi-implicit, differences is made.