Biblio
Filters: Author is Esau, Igor [Clear All Filters]
The planetary boundary layer feedbacks in polar latitudes. World Climate Research Programme workshop on seasonal to multi-decadal predictability of polar climate (2010).at <http://www.atmosp.physics.utoronto.ca/SPARC/PolarWorkshop/main.html>
Possibilities of applying the concept of “winter city” in the Russian Arctic (On the example of the city of Nadym). Arktika: Ekologija i ekonomika 11, (2021).
A proxy for air quality hazards under present and future climate conditions in Bergen, Norway. Urban Climate 10, (2014).
A proxy for air quality hazards under present and future climate conditions in Bergen, Norway. Urban Climate 10, (2014).
Reassessing changes in diurnal temperature range: A new data set and characterization of data biases. Journal of Geophysical Research (JGR): Atmospheres 121, (2016).
Reassessing changes in Diurnal Temperature Range: A new dataset and characterization of data biases. Journal of Geophysical Research (JGR): Atmospheres 121, (2016).
Recent advances on the understanding of the Northern Eurasian environments and of the urban air quality in China-Pan Eurasian Experiment (PEEX) program perspective. Atmospheric Chemistry and Physics (ACP) (2021).doi:10.5194/acp-2021-341
Relationships between heat flux components and mixed layer properties derived from OWS ?Mike? time series. EGU General Assembly, 13-18 April, Vienna, Austria, /Geophysical Research Abstracts/, *10*, EGU2008-A-0OOOO (2008).
Resistance and heat transfer laws for stable and neutral boundary layers. Turbulence and Waves in Stably Stratified Atmospheric Shear Flows: Measurements, High Resolution Simulations and Numerical Prediction Challenges (2004).
Resistance and heat-transfer laws for stable and neutral planetary boundary layers: Old theory, advanced and re-evaluated. Quarterly Journal of the Royal Meteorological Society 131, 1863-1892 (2005). Abstract
Resistance laws for stable baroclinic boundary layers. Abstracts: 27th EGS General Assembly, Nice, France, 21-26 April 2002 (2002).
Review and assessment of latent and sensible heat flux accuracy over the global oceans. Remote Sensing of Environment 201, (2017).
THE ROLE OF THE BARENTS SEA IN THE ARCTIC CLIMATE SYSTEM. Reviews of geophysics 51, (2013). Download: The role of the Barents_ROG.pdf (3.32 MB)
On the role of the planetary boundary layer depth in the climate system. Advances in Science and Research 4, (2010). Abstract
Download: On the role of the planetary boundary layer depth in the climate system.pdf (301.54 KB)
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).
Scaling the decay of turbulence kinetic energy in the free-convective boundary layer. Boundary-layer Meteorology (2019).doi:10.1007/s10546-019-00458-z
Seasonal and spatial characteristics of Urban Heat Islands (UHIs) in northern West Siberian cities. Remote Sensing 9:989, (2017). Abstract
Self-organization of the Ekman boundary layer turbulence forced by the horizontal component of the Coriolis force. EGU General Assembly 2010 12, (2010). Download: Esau_2010_GeophysResAbstr_EGU2010-AS2.3-1546_Self_organization.pdf (38.58 KB)
Sensitivity of local air quality to the interplay between small and large-scale circulations: a large-eddy simulation study. Atmospheric Chemistry and Physics (ACP) 17, (2017).
Sensitivity of simulated wintertime Arctic atmosphere to vertical resolution in the ARPEGE/IFS model. Climate Dynamics 30, 687-701 (2008). Abstract
Download: Byrkjedal_et_al_220606.pdf (1.26 MB)
Sensitivity of simulated wintertime Arctic atmosphere to vertical resolution in the ARPEGE/IFS model. Open science conference Polar Dynamics: Monitoring, Understanding, and Prediction, August 29-31, Bergen, Norway (2007).
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
