Biblio
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Urban heat islands in the Arctic cities: an updated compilation of in situ and remote-sensing estimations. Advances in Science and Research 18, (2021). Abstract
Amplification of turbulent exchange over wide Arctic leads: Large-eddy simulation study. Journal of Geophysical Research (Atmospheres) 112, (2007). Download: 2006JD007225.pdf (966.61 KB)
A Health Damage Pattern Due to Street-Level Pollution in the Central Paris Area Estimated With a Turbulence-Resolving Model. Sustainable Environmental Design in Architecture (2012).doi:10.1007/978-1-4419-0745-5_18
Physical mechanism and quantitative assessment of the planetary boundary layer feedback in the climate system. The IARU International Scientific Congress on Climate Change (2009).
Non-local effects of large eddies in surface layer. Computational Technology (Russian) 9, 71-85 (2004).
Planetary Boundary Layer Feedback and Its Role in Climate Change. 16B.3, /18th Symposium on Boundary Layers and Turbulence/, American Geophysical Society, 9-13 June, Stockholm, Sweden (2008).
A user-defined approach to utilize climate change information in local implementation of national construction standards. 2nd International BaltCICA conference (2011).at <http://www.baltcica.org/meetings/conference11.html>
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)
First results from coupled atmosphere-ocean large-eddy simulations. Geophysical Research Abstracts. EGU General Assembly (2008). Abstract
Micro-climate on MEGA-computers. META (2012).
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>
Turbulence-resolving simulations of circulations near ice edge. General EGU assembly, 15-20 April, Vienna, Austria, Geophysical Research Abstracts, 9, 01318 (2007).
Convective cloud fields in the Atlantic sector of the Arctic: Satellite and ground-based oservations. Izvestiya, Atmospheric and Oceanic Physics 51, (2015). Download: esau_chernokulsky_2014_convective_cloud_fields_in_the_atlantic_sector_of_the_arctic.pdf (2.74 MB)
Turbulent Prandtl Number in Stably Stratified Atmospheric Boundary Layer: Intercomparison between LES and SHEBA Data. http://ejournal.windeng.net 1-17 (2007).
Wind Climate in Kongsfjorden, Svalbard, and Attribution of LeadingWind DrivingMechanisms through Turbulence-Resolving Simulations. Advances in Meteorology 2012, (2012). Abstract
Numerical Experiments for Central Paris with Urbanized Large-Eddy Simulation Model PALM (MEGAPOLI Del 2.4). MEGAPOLI Newsletters (2010). Abstract
Download: MEGAPOLI_NewsLet07.pdf (8.15 MB)
Systematic errors in northern Eurasian short-term weather forecasts induced by atmospheric boundary layer thickness. Environmental Research Letters 13:125009, (2018). Abstract
Large-eddy simulation experiments with nudging to observed mean meteorological profiles. MEGAPOLI Newsletters 3, (2009).
Amplification of Turbulent Exchange due to Surface Thermal Heterogeneity: Study of Polar Ocean Leads. Stable Atmospheric Boundary Layer Workshop (2006).
The analysis of results of remote sensing monitoring of the temperature profile in lower atmosphere in Bergen (Norway). Russian Meteorology and Hydrology 38, (2013). Download: esau_etal_2013_the_analysis_of_results_of_remote_sensing_monitoring.pdf (338.68 KB)
Large-eddy simulations of geophysical turbulent flows with applications to planetary boundary layer research. Proceedings of 5th conference on computational mechanics "MekIT'09", Trondheim, 26-27 May 7-37 (2009).
Klimaendringer utfordrer ingeniørene. Klima (2011).at <http://www.cicero.uio.no/fulltext/index.aspx?id=9016> Download: Klimaendringer utfordrer ingeniørene - CICERO.pdf (177.97 KB)
