TY - JOUR
T1 - C-FOG life of coastal fog
AU - Fernando, H. J.S.
AU - Gultepe, I.
AU - Dorman, C.
AU - Pardyjak, E.
AU - Wang, Q.
AU - Hoch, S. W.
AU - Richter, D.
AU - Creegan, E.
AU - Gaberšek, S.
AU - Bullock, T.
AU - Hocut, C.
AU - Chang, R.
AU - Alappattu, D.
AU - Dimitrova, R.
AU - Flagg, D.
AU - Grachev, A.
AU - Krishnamurthy, R.
AU - Singh, D. K.
AU - Lozovatsky, I.
AU - Nagare, B.
AU - Sharma, A.
AU - Wagh, S.
AU - Wainwright, C.
AU - Wroblewski, M.
AU - Yamaguchi, R.
AU - Bardoel, S.
AU - Coppersmith, R. S.
AU - Chisholm, N.
AU - Gonzalez, E.
AU - Gunawardena, N.
AU - Hyde, O.
AU - Morrison, T.
AU - Olson, A.
AU - Perelet, A.
AU - Perrie, W.
AU - Wang, S.
AU - Wauer, B.
N1 - Publisher Copyright:
© 2021 American Meteorological Society.
PY - 2021/2
Y1 - 2021/2
N2 - C-FOG is a comprehensive bi-national project dealing with the formation, persistence, and dissipation (life cycle) of fog in coastal areas (coastal fog) controlled by land, marine, and atmospheric processes. Given its inherent complexity, coastal-fog literature has mainly focused on case studies, and there is a continuing need for research that integrates across processes (e.g., air–sea–land interactions, environmental flow, aerosol transport, and chemistry), dynamics (two-phase flow and turbulence), microphysics (nucleation, droplet characterization), and thermodynamics (heat transfer and phase changes) through field observations and modeling. Central to C-FOG was a field campaign in eastern Canada from 1 September to 8 October 2018, covering four land sites in Newfoundland and Nova Scotia and an adjacent coastal strip transected by the Research Vessel Hugh R. Sharp. An array of in situ, path-integrating, and remote sensing instruments gathered data across a swath of space–time scales relevant to fog life cycle. Satellite and reanalysis products, routine meteorological observations, numerical weather prediction model (WRF and COAMPS) outputs, large-eddy simulations, and phenomenological modeling underpin the interpretation of field observations in a multiscale and multiplatform framework that helps identify and remedy numerical model deficiencies. An overview of the C-FOG field campaign and some preliminary analysis/findings are presented in this paper.
AB - C-FOG is a comprehensive bi-national project dealing with the formation, persistence, and dissipation (life cycle) of fog in coastal areas (coastal fog) controlled by land, marine, and atmospheric processes. Given its inherent complexity, coastal-fog literature has mainly focused on case studies, and there is a continuing need for research that integrates across processes (e.g., air–sea–land interactions, environmental flow, aerosol transport, and chemistry), dynamics (two-phase flow and turbulence), microphysics (nucleation, droplet characterization), and thermodynamics (heat transfer and phase changes) through field observations and modeling. Central to C-FOG was a field campaign in eastern Canada from 1 September to 8 October 2018, covering four land sites in Newfoundland and Nova Scotia and an adjacent coastal strip transected by the Research Vessel Hugh R. Sharp. An array of in situ, path-integrating, and remote sensing instruments gathered data across a swath of space–time scales relevant to fog life cycle. Satellite and reanalysis products, routine meteorological observations, numerical weather prediction model (WRF and COAMPS) outputs, large-eddy simulations, and phenomenological modeling underpin the interpretation of field observations in a multiscale and multiplatform framework that helps identify and remedy numerical model deficiencies. An overview of the C-FOG field campaign and some preliminary analysis/findings are presented in this paper.
KW - Aerosols
KW - Atmosphere-land interaction
KW - Atmosphere-ocean interaction
KW - Drop size distribution
KW - Fog
KW - Visibility
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U2 - 10.1175/BAMS-D-19-0070.1
DO - 10.1175/BAMS-D-19-0070.1
M3 - Article
AN - SCOPUS:85102178029
SN - 0003-0007
VL - 102
SP - E244-E272
JO - Bulletin of the American Meteorological Society
JF - Bulletin of the American Meteorological Society
IS - 2
ER -