Biblio
Filters: Author is Esau, Igor [Clear All Filters]
The large-scale circulation during air quality hazards in Bergen, Norway. Report Series in Aerosol Science 163, (2015).
The breeze induced modification of the local circulation in a coastal mountainous valley - a case study for Bergen, Norway. Report Series in Aerosol Science 180, (2016).
Sensitivity of local air quality to the interplay between small and large-scale circulations: a large-eddy simulation study. Atmospheric Chemistry and Physics 17, (2017).
The large-scale sirculation during air quality hazards in Bergen, Norway. Proceedings of the 1st Pan-Eurasian Experiment (PEEX) Conference and the 5th PEEX Meeting. Report Series in Aerosol Science No. 163 (2015) (2015).
A proxy for air quality hazards under present and future climate conditions in Bergen, Norway. Urban Climate 10, (2014).
A very high-resolution assessment and modelling of urban air quality. Atmospheric Chemistry and Physics 20, (2020). Abstract
Analysis of the vertical temperature structure in the Bergen valley, Norway, and its connection to pollution episodes, and its connection to pollution episodes. Journal of Geophysical Research (JGR): Atmospheres 119, (2014).
The effect of baroclinicity on the depth of neutral and stable planetary boundary layers. Quart, J. Roy. Met. Soc. 3339-3356 (2003).
Resistance laws for stable baroclinic boundary layers. Abstracts: 27th EGS General Assembly, Nice, France, 21-26 April 2002 (2002).
The influence of large convective eddies on the surface layer turbulence. 1st European Geophysical Union General Assembly (2004).
Similarity theory and calculation of the surface turbulent fluxes in stably-stratified atmospheric boundary layers. Atmospheric Boundary layers. Nature, theory and applications to moeling and environmental safety (2012).doi:10.1007/978-0-387-74321-9_4
Turbulent energetics in the stably stratified geophysical flows and the problem of critical Richardson number. International Conference Mesoscale Meteorology and Air Pollution in Commemoration of the Late Professor Lev Gutman and His Outstanding Contribution to Theoretical Mesometeorology, 15-17 September 2008, Odessa State Environmental University, Odessa, Ukra (2008).
Scaling laws and turbulence closures for stable boundary layers. 27th EGS-AGU-EUG Joint Assembly, Nice, France, 6-11 April 2003.; CD-ROM Geophysical Research Abstracts , Volume 5, 2003. (2003).
Similarity theory and calculation of turbulent fluxes at the surface for the stably stratified atmospheric boundary layer. Boundary-Layer Meteorology 125, 193-205 (2007). Abstract
Monitoring and forecasting of personal environment. Fundamentalnaya i prikladnaya gidrofizika 9, (2016).
The nature and the role of semi-organised structures in the atmospheric convective boundary layers. Abstracts: 4th Annual Meeting of the European Meteorological Society, Nice, France, 26-30 September 2004 (2004).
The Influence of large convective eddies on the surface-layer turbulence. Q.J.R. Meteorol. Soce. 1423-1456 (2006).
Turbulence energetics in stably stratified geophysical flows: Strong and weak mixing regimes. Quarterly Journal of the Royal Meteorological Society 134, 793-799 (2008).
On integral measures of the neutral, barotropic planetary boundary layers. Boundary-layer Meteorology 371-379 (2002).at <http://www.springerlink.com/content/100245/?p=43e84a3972f3443fbe3e13aeb2578da0&pi=0>
Planetary boundary layer feedbacks in climate system and triggering global warming in the night, in winter and at high latitudes. Geography, Environment, Sustainability 1, (2009). Abstract
Similarity theory and calculation of turbulent fluxes at the surface for the stably stratified atmospheric boundary layer. Atmospheric Boundary Layers: Nature, Theory and Applications to Environmental Modelling and Security 37-49 (2007).at <http://www.springerlink.com.pva.uib.no/content/978-0-387-74318-9/#section=167162&page=3&locus=29> Abstract
Atmospheric boundary layers in storms: advanced theory and modelling applications. Advances in Geosciences 47-49 (2005).
On the velocity gradient in the stably stratified sheared flows. Part 1: Asymptotic analysis and applications. Boundary-Layer Meteorology 135, (2010). Abstract
