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LUVAL

  • Pågående forskning
  • Populärvetenskaplig presentation
  • Medarbetare
  • Publikationer
  • Observationer och mätstationer

Publikationer

  • Mapping coastal upwelling in the Baltic Sea from 2002 to 2020 using remote sensing data.

    Zhang, S., Wu, L., Arnqvist, J., Hallgren, C., Rutgersson, A. (2022). International Journal of Applied Earth Observation and Geoinformation, . vol. 114 DOI
  • On physical mechanisms enhancing air-sea CO2 exchange.

    Gutiérrez Loza, L., Nilsson, E., Wallin, M., Sahlée, E., Rutgersson, A. (2022). Biogeosciences, . vol. 19, ss. 5645-5665 DOI
  • Short-term probabilistic forecasting at a co-located wind and solar power park in Sweden: Trading and forecast verification.

    Lindberg, Oskar; Lingfors, David; Arnqvist, Johan; van der Meer, Dennis; Munkhammar, Joakim
  • Analyzing the mechanisms behind temporal correlation between power sources using frequency separated time scales: A Swedish case study on PV and wind.

    Lindberg, O., Lingfors, D., Arnqvist, J. (2022). Energy, . vol. 259 DOI
  • Air–sea CO2 exchange in the Baltic Sea—A sensitivity analysis of the gas transfer velocity.

    Gutiérrez Loza, L., - Wallin, M., Sahlée, E., - Holding, T., - Shutler, J. et al. (2021). Journal of Marine Systems, vol. - 222 DOI
  • Classification and properties of non-idealized coastal wind profiles - an observational study.

    Hallgren, C., Arnqvist, J., Nilsson, E., Ivanell, S., Shapkalijevski, M. et al. (2022). Wind Energy Science, . vol. 7, ss. 1183-1207 DOI
  • Modelling the effects of surface heterogeneity on the internal boundary layer during a diurnal cycle.

    Janzon, Erik; Arnqvist, Johan; Shapkalijevski, Metodija; Körnich, Heiner; Rutgersson, Anna
  • Wind turbine wake inflow over a heterogeneous forest: comparison between measurement and LES simulation.

    Navarro Diaz, G., Arnqvist, J., Ivanell, S. (2021). Journal of Physics, Conference Series, . vol. 1934 DOI
  • The New European Wind Atlas Model Chain.

    Rodrigo, J., Chavez Arroyo, R., Witha, B., Doerenkaemper, M., Gottschall, J. et al. (2020). Journal of Physics, Conference Series . DOI
  • Review on power-production modeling of hybrid wind and PV power parks.

    Lindberg, O., Arnqvist, J., Munkhammar, J., Lingfors, D. (2021). Journal of Renewable and Sustainable Energy, . vol. 13 DOI
  • Spatio-temporal variability of atmospheric rivers and associated atmospheric parameters in the Euro-Atlantic region.

    Thandlam, V., Rutgersson, A., Sahlée, E. (2021). Journal of Theoretical and Applied Climatology . DOI
  • The smoother the better?: A comparison of six post-processing methods to improve short-term offshore wind power forecasts in the Baltic Sea.

    Hallgren, C., Ivanell, S., Körnich, H., Vakkari, V., Sahlée, E. (2021). Wind Energy Science, . vol. 6, ss. 1205-1226 DOI
  • A sensitivity study of the WRF model in offshore wind modeling over the Baltic Sea.

    Li, H., Carlsson, B., Wu, L., Hallgren, C., Körnich, H. et al. (2021). Geoscience Frontiers, vol. 12 DOI
  • Forecasting of Icing Related Wind Energy Production Losses: Probabilistic and Machine Learning Approaches.

    Molinder, Jennie, 2021 Ladda ner fulltext
  • Robust processing of airborne laser scans to plant area density profiles.

    Arnqvist, J., Freier, J., Dellwik, E. (2020). Biogeosciences, . vol. 17, ss. 5939-5952 DOI
  • Probabilistic Forecasting of Wind Turbine Icing Related Production Losses Using Quantile Regression Forests.

    Molinder, J., Scher, S., Nilsson, E., Körnich, H., Bergström, H. et al. (2021). Energies, . vol. 14 DOI
  • Impact of low-level wind maxima below hub height on windturbine sound propagation.

    Conrady, K., Bolin, K., Sjöblom, A., Rutgersson, A. (2020). Wind Energy, . vol. 23, ss. 1767-1775 DOI
  • Flow over a snow-water-snow surface in the high Arctic, Svalbard: Turbulent fluxes and comparison of observation techniques.

    Sjöblom, A., Andersson, A., Rutgersson, A., Falck, E. (2020). Polar Science, vol. 25 DOI
  • Single Column Model Simulations of Icing Conditions in Northern Sweden: Sensitivity to Surface Model Land Use Representation.

    Janzon, E., Kornich, H., Arnqvist, J., Rutgersson, A. (2020). Energies, . vol. 13 DOI
  • Investigation of Turbulence Accuracy When Modeling Wind in Realistic Forests Using LES.

    Arnqvist, J., Olivares-Espinosa, H., Ivanell, S. (2019). I Orlu, R Talamelli, A Peinke, J Oberlack, M (red.) Progress In Turbulence Viii, . ss. 291-296 DOI
  • An investigation of the influence of the refractive shadow zone on wind turbine noise.

    Bolin, K., Conrady, K., Karasalo, I., Sjöblom, A. (2020). Journal of the Acoustical Society of America, . vol. 148, ss. EL166-EL171 DOI
  • Assessment of wind fields over forested sites with LES and a nacelle lidar.

    Olivares-Espinosa, H., Arnqvist, J., Ivanell, S. (2019). I Wake conference . DOI
  • Daily cycle simulations of thermally stratified flows over forests.

    Avila, M., Chavez-Arroyo, R., Arnqvist, J., Olivares-Espinosa, H., Dellwik, E. (2019). I Wake Conference 2019 22–24 May 2019, Visby, Sweden . DOI
  • Non-local Impacts on Eddy-Covariance Air–Lake CO2 Fluxes.

    Esters, L., Rutgersson, A., Nilsson, E., Sahlée, E. (2021). Boundary-layer Meteorology, vol. 178, ss. 283-300 DOI
  • Looking for an Offshore Low-Level Jet Champion among Recent Reanalyses: A Tight Race over the Baltic Sea.

    Hallgren, C., Arnqvist, J., Ivanell, S., Kornich, H., Vakkari, V. et al. (2020). Energies, . vol. 13 DOI
  • Summary of a workshop on extreme weather events in a warming world organized by the Royal Swedish Academy of Sciences.

    Chen, D., Rodhe, H., Emanuel, K., Seneviratne, S., Zhai, P. et al. (2020). Tellus. Series B, Chemical and physical meteorology, vol. 72 DOI
  • Impact of Air-Wave-Sea Coupling on the Simulation of Offshore Wind and Wave Energy Potentials.

    Wu, L., Shao, M., Sahlée, E. (2020). Atmosphere, . vol. 11 DOI
  • Carbon dioxide dynamics in an agricultural headwater stream driven by hydrology and primary production.

    Wallin, M., Audet, J., Peacock, M., Sahlée, E., Winterdahl, M. (2020). Biogeosciences, vol. 17, ss. 2487-2498 DOI
  • Amplitude modulation of wind turbine sound in cold climates.

    Conrady, K., Bolin, K., Sjöblom, A., Rutgersson, A. (2020). Applied Acoustics, . vol. 158 DOI
  • Using land-based stations for air–sea interaction studies.

    Rutgersson, A., Pettersson, H., Nilsson, E., Bergström, H., Wallin, M. et al. (2020). Tellus. Series A, Dynamic meteorology and oceanography, . vol. 72, ss. 1-23 DOI
  • Machine Learning-Based Prediction of Icing-Related Wind Power Production Loss.

    Scher, S., Molinder, J. (2019). IEEE Access, . vol. 7, ss. 129421-129429 DOI
  • The Use of Uncertainty Quantification for the Empirical Modeling of Wind Turbine Icing.

    Molinder, J., Körnich, H., Olsson, E., Hessling, P. (2019). Journal of Applied Meteorology and Climatology, . vol. 58, ss. 2019-2032 DOI
  • Measurement of air-sea methane fluxes in the Baltic Sea using the eddy covariance method.

    Gutiérrez Loza, L., Wallin, M., Sahlée, E., Nilsson, E., Bange, H. et al. (2019). Frontiers in Earth Science, vol. 7 DOI
  • Measurements and Modelling of Offshore Wind Profiles in a Semi-Enclosed Sea.

    Svensson, N., Arnqvist, J., Bergström, H., Rutgersson, A., Sahlée, E. (2019). Atmosphere, vol. 10 DOI
  • Wind Turbine Sound in Cold Climates.

    Conrady, Kristina, 2019 Ladda ner fulltext
  • Wind power in forests II: Forest wind.

    Mohr, Matthias; Arnqvist, Johan; Abedi, Hamidreza; Alfredsson, Henrik; Baltscheffsky, Magnus et al., 2018 Ladda ner fulltext
  • Micro-scale model comparison (benchmark) at the moderately complex forested site Ryningsnäs.

    Ivanell, S., Arnqvist, J., Avila, M., Cavar, D., Aurelio Chavez-Arroyo, R. et al. (2018). Wind Energy Science, vol. 3, ss. 929-946 DOI
  • From lidar scans to roughness maps for wind resource modelling in forested areas.

    Floors, R., Enevoldsen, P., Davis, N., Arnqvist, J., Dellwik, E. (2018). Wind Energy Science, . vol. 3, ss. 353-370 DOI
  • Enhanced Air–Sea Exchange of Heat and Carbon Dioxide Over a High Arctic Fjord During Unstable Very-Close-to-Neutral Conditions.

    Andersson, A., Sjöblom, A., Sahlée, E., Falck, E., Rutgersson, A. (2019). Boundary-layer Meteorology, vol. 170, ss. 471-488 DOI
  • High spatial variability of gas transfer velocity in streams revealed by turbulence measurements.

    Kokic, J., Sahlée, E., Sobek, S., Vachon, D., Wallin, M. (2018). INLAND WATERS, vol. 8, ss. 461-473 DOI
  • Probabilistic forecasting of wind power production losses in cold climates: a case study.

    Molinder, J., Körnich, H., Olsson, E., Bergström, H., Sjöblom, A. (2018). Wind Energy Science, vol. 3, ss. 667-680 DOI
  • Impact of snow on sound propagating from wind turbines.

    Conrady, K., Sjöblom, A., Larsson, C. (2018). Wind Energy, vol. 21, ss. 1282-1295 DOI
  • The Transition from Downward to Upward Air–Sea Momentum Flux in Swell-Dominated Light Wind Conditions.

    Högström, U., Sahlée, E., Smedman, A., Rutgersson, A., Nilsson, E. et al. (2018). Journal of the Atmospheric Sciences, vol. 75, ss. 2579-2588 DOI
  • Mesoscale Processes over the Baltic Sea.

    Svensson, Nina, 2018 Ladda ner fulltext
  • The turbulent kinetic energy budget in the marine atmospheric surface layer.

    Sjöblom, A., Smedman, A. (2002). Journal of Geophysical Research - Oceans, vol. 107 DOI
  • New findings concerning the structure of the marine atmospheric boundary layer over the Baltic Sea – possible implications for wind energy installations.

    Smedman, A., Högström, U., Bergström, H., Johansson, C., Sjöblom, A. et al. (2003). Wind Engineering, vol. 27, ss. 431-447
  • A note on velocity spectra in the marine boundary layer.

    Smedman, A., Högström, U., Sjöblom, A. (2003). Boundary-layer Meteorology, vol. 109, ss. 27-48
  • Vertical structure in the marine atmospheric boundary layer and its implication to the inertial dissipation method.

    Sjöblom, A., Smedman, A. (2003). Boundary-layer Meteorology, vol. 109, ss. 1-25
  • Comparison between eddy-correlation and inertial dissipation methods in the marine atmospheric surface layer.

    Sjöblom, A., Smedman, A. (2004). Boundary-layer Meteorology, vol. 110, ss. 141-164
  • Momentum and sensible heat exchange in an ice-free Arctic fjord.

    Kilpeläinen, T., Sjöblom, A. (2010). Boundary-layer Meteorology, vol. 134, ss. 109-130
  • Overwintering of terrestrial Arctic arthropods; the case of the fauna of Svalbard now and in the future.

    Ávila-Jiménez, M., Coulson, S., Solhøy, T., Sjöblom, A. (2010). Polar Research, ss. 127-137
  • A solar eclipse seen from the High Arctic during the period of midnight sun: Effects on the local meteorology.

    Sjöblom, A. (2010). Meteorology and atmospheric physics (Print), vol. 7, ss. 123-136
  • Observations and modelling of the atmospheric boundary layer over sea ice in a Svalbard fjord.

    Mäkiranta, E., Vihma, T., Sjöblom, A., Tastula, E. (2011). Boundary-layer Meteorology, vol. 140, ss. 105-123 DOI
  • Characteristics of temperature and humidity inversions and low-level jets over Svalbard fjords in spring.

    Vihma, T., Kilpeläinen, T., Manninen, M., Sjöblom, A., Jakobson, E. et al. (2011). Advances in Meteorology DOI
  • Modelling of the vertical structure of the atmospheric boundary layer over Arctic fjords in Svalbard.

    Kilpeläinen, T., Vihma, T., Manninen, M., Sjöblom, A., Jakobson, E. et al. (2012). Quarterly Journal of the Royal Meteorological Society, vol. 138, ss. 1867-1883
  • Svalbard Meteorology.

    Esau, I., Argentini, S., Przybylak, R., Repina, I., Sjöblom, A. (2012). Advances in Meteorology, vol. 2012 DOI
  • A solar eclipse seen from the High Arctic during the period of midnight sun: Effects on the local meteorology.

    Sjöblom, A. (2010). Meteorology and atmospheric physics (Print), vol. 107, ss. 123-136 DOI
  • The importance of understanding annual and shorter term temperature patterns and variation in the surface levels of polar soils for terrestrial biota.

    Convey, P., Coulson, S., Worland, M., Sjöblom, A. (2018). Polar Biology, . vol. 41, ss. 1587-1605 DOI
  • Offshore wind speed profiles: Investigating variations using WRF simulations and LIDAR measurements.

    Svensson, Nina; Bergström, Hans; Rutgersson, Anna; Sahlée, Erik
  • Modification of the Baltic Sea wind field by land-sea interaction.

    Svensson, N., Bergström, H., Rutgersson, A., Sahlée, E. (2019). Wind Energy, vol. 22, ss. 764-779 DOI
  • Evaluating humidity and sea salt disturbances on CO2 flux measurements.

    Nilsson, E., Bergström, H., Rutgersson, A., Podgrajsek, E., Wallin, M. et al. (2018). Journal of Atmospheric and Oceanic Technology, vol. 35, ss. 859-875 DOI
  • Complex terrain experiments in the New European Wind Atlas.

    Mann, J., Angelou, N., Arnqvist, J., Callies, D., Cantero, E. et al. (2017). Philosophical Transactions. Series A, vol. 375, ss. 1-23 DOI
  • Wind and atmospheric stability characteristics over the Baltic Sea.

    Svensson, Nina, 2016 Ladda ner fulltext
  • Air-sea gas transfer for two gases of different solubility (CO2 and O2).

    Rutgersson, A., Andersson, A., Sahlée, E. (2016). I Andrew T. Jessup and William E. Asher (red.) IOP Conference Series: Earth and Environmental Science DOI
  • Enhanced nighttime gas emissions from a lake.

    Podgrajsek, E., Sahlée, E., Rutgersson, A. (2016). I Andrew T. Jessup and William E. Asher (red.) IOP Conference Series: Earth and Environmental Science DOI
  • Air-sea gas transfer in high Arctic fjords.

    Andersson, A., Falck, E., Sjöblom, A., Kljun, N., Sahlée, E. et al. (2017). Geophysical Research Letters, vol. 44, ss. 2519-2526 DOI
  • Surface Wave Impact When Simulating Midlatitude Storm Development.

    Wu, L., Sproson, D., Sahleé, E., Rutgersson, A. (2017). Journal of Atmospheric and Oceanic Technology, vol. 34, ss. 233-248 DOI
  • Typical Performances of Mesoscale Meteorology Models.

    Schluenzen, K., Conrady, K., Purr, C. (2016). I Steyn, DG; Chaumerliac, N Steyn, DG; Chaumerliac, N (red.) Air Pollution Modeling And Its Application XXIV, Berlin: Springer Berlin/Heidelberg. ss. 447-457 DOI
  • Methane fluxes from a small boreal lake measured with the eddy covariance method.

    Podgrajsek, E., Sahlée, E., Bastviken, D., Natchimuthu, S., Kljun, N. et al. (2016). Limnology and Oceanography, vol. 61, ss. S41-S50 DOI
  • A Case Study of Offshore Advection of Boundary Layer Rolls over a Stably Stratified Sea Surface.

    Svensson, N., Sahlée, E., Bergström, H., Nilsson, E., Badger, M. et al. (2017). Advances in Meteorology, vol. 2017 DOI
  • Modelling of Atmospheric Icing: An introduction essay.

    Thorsson, Petra, 2010 Ladda ner fulltext
  • Low sediment-water gas exchange in a small boreal lake.

    Kokic, J., Sahlée, E., Brand, A., Sobek, S. (2016). Journal of Geophysical Research - Biogeosciences, vol. 121, ss. 2493-2505 DOI
  • Swell impact on wind stress and atmospheric mixing in a regional coupled atmosphere-wave model.

    Wu, L., Rutgersson, A., Sahlee, E., Larsen, X. (2016). Journal of Geophysical Research - Oceans, vol. 121, ss. 4633-4648 DOI
  • "There is no bad weather...": The weather information behaviour of everyday users and meteorologists view on information.

    Thorsson, Petra, 2016 Ladda ner fulltext
  • Restoring the missing high-frequency fluctuations in a wind power model based on reanalysis data.

    Olauson, J., Bergström, H., Bergkvist, M. (2016). Renewable energy, vol. 96, ss. 784-791 DOI
  • Stable conditions over the Baltic sea: model evaluation and climatology.

    Svensson, N., Bergström, H., Sahlée, E., Rutgersson, A. (2016). Boreal environment research, vol. 21, ss. 387-404
  • Using eddy covariance to estimate air-sea gas transfer velocity for oxygen.

    Andersson, A., Rutgersson, A., Sahlee, E. (2016). Journal of Marine Systems, vol. 159, ss. 67-75 DOI
  • Examination of the mechanism behind observed canopy waves.

    Arnqvist, J., Bergrström, H., Nappo, C. (2016). Agricultural and Forest Meteorology, vol. 218, ss. 196-203 DOI
  • Upper-ocean mixing due to surface gravity waves.

    Wu, L., Rutgersson, A., Sahlée, E. (2015). Journal of Geophysical Research - Oceans, vol. 120, ss. 8210-8228 DOI
  • Scenarios and time series of future wind power production in Sweden.

    Olauson, Jon; Bergström, Hans; Bergkvist, Mikael, 2015 Ladda ner fulltext
  • Surface Stress over the Ocean in Swell-Dominated Conditions during Moderate Winds.

    Högström, U., Sahlée, E., Smedman, A., Rutgersson, A., Nilsson, E. et al. (2015). Journal of the Atmospheric Sciences, vol. 72, ss. 4777-4795 DOI
  • Temporal and spatial carbon dioxide concentration patterns in a small boreal lake in relation to ice cover dynamics.

    Denfeld, B., Wallin, M., Sahlée, E., Sobek, S., Kokic, J. et al. (2015). Boreal environment research, vol. 20, ss. 679-692
  • A spectral model for stably stratified turbulence.

    Segalini, A., Arnqvist, J. (2015). Journal of Fluid Mechanics, vol. 781, ss. 330-352 DOI
  • A collection of sub-daily pressure and temperature observations for the early instrumental period with a focus on the "year without a summer" 1816.

    Brugnara, Y., Auchmann, R., Broennimann, S., Allan, R., Auer, I. et al. (2015). Climate of the Past, vol. 11, ss. 1027-1047 DOI
  • The impact of waves and sea spray on modelling storm track and development.

    Wu, L., Rutgersson, A., Sahlée, E., Larsén, X. (2015). Tellus. Series A, Dynamic meteorology and oceanography, vol. 67 DOI
  • A spectral model of stably stratified surface-layer turbulence.

    Segalini, A., Arnqvist, J., Carlen, I., Bergström, H., Alfredsson, P. (2015). I Wake Conference 2015, ss. 012003- DOI
  • Modelling atmospheric icing: A comparison between icing calculated with measured meteorological data and NWP data.

    Thorsson, P., Söderberg, S., Bergström, H. (2015). Cold Regions Science and Technology, . vol. 119, ss. 124-131 DOI
  • Uncertainties Connected to Long-term Correction ofWind Observations.

    Saarnak, E., Bergström, H., Söderberg, S. (2014). Wind Engineering, . vol. 38, ss. 233-248 DOI
  • Mean Wind and Turbulence Conditions in the Boundary Layer above Forests.

    Arnqvist, Johan, 2015 Ladda ner fulltext
  • Diel cycle of lake-air CO2 flux from a shallow lake and the impact of waterside convection on the transfer velocity.

    Podrajsek, E., Sahlée, E., Rutgersson, A. (2015). Journal of Geophysical Research - Biogeosciences, vol. 120, ss. 29-38 DOI
  • Wind energy estimation over forest canopies using WRF mesoscale model.

    Mohr, M. (2014). I EWEA 2014 .
  • Observations of summer turbulent surface fluxes in a High Arctic fjord.

    Kral, S., Sjöblom, A., Nygård, T. (2014). Quarterly Journal of the Royal Meteorological Society, vol. 140, ss. 666-675 DOI
  • Spectral form and source term balance of short gravity wind waves.

    Tamura, H., Drennan, W., Sahlée, E., Graber, H. (2014). Journal Of Geophysical Research - Oceans, vol. 119, ss. 7406-7419 DOI
  • Using a High-Frequency Fluorescent Oxygen Probe in Atmospheric Eddy Covariance Applications.

    Andersson, A., Rutgersson, A., Sahlée, E. (2014). Journal of Atmospheric and Oceanic Technology, vol. 31, ss. 2498-2511 DOI
  • Ljud från vindkraftverk, modell-validering-mätning: Slutrapport Energimyndighetens projekt 32437-1.

    Larsson, Conny, 2014 Ladda ner fulltext
  • Wind statistics from a forested landscape.

    Arnqvist, J., Dellwik, E., Segalini, A., Bergström, H. (2015). Boundary-layer Meteorology, vol. 156, ss. 53-71 DOI
  • A spectral model for stably stratied turbulence.

    Segalini, A., Arnqvist, J. Journal of Fluid Mechanics
  • Flux-profile relation with roughness sublayer correction.

    Arnqvist, J., Bergström, H. (2015). Quarterly Journal of the Royal Meteorological Society, vol. 141, ss. 1191-1197 DOI
  • Meso-scale modeling of a forested landscape.

    Dellwik, E., Arnqvist, J., Bergström, H., Mohr, M., Söderberg, S. et al. (2014). I
  • Amplitude modulated sound from wind turbines during different weather.

    Larsson, C., Öhlund, O. (2014). I .
  • Wind turbine sound - metric and guidelines.

    Larsson, C., Öhlund, O. (2014). I Proceedings of 43rd International Congress on Noise Control Engineering .
  • Wind turbine sound propagation in the atmospheric boundary layer – comparison between measurements and models.

    Öhlund, O., Larsson, C. (2014). I
  • Hourly, daily, and seasonal variability in the absorption spectra of chromophoric dissolved organic matter in a eutrophic, humic lake.

    Müller, R., Kothawala, D., Podgrajsek, E., Sahlée, E., Köhler, B. et al. (2014). Journal of Geophysical Research - Biogeosciences, vol. 119, ss. 1985-1998 DOI
  • Modelling the impact of Baltic Sea upwelling on the atmospheric boundary layer.

    Sproson, D., Sahlée, E. (2014). Tellus. Series A, Dynamic meteorology and oceanography, vol. 66, ss. 24041- DOI
  • Comparison of floating chamber and eddy covariance measurements of lake greenhouse gas fluxes.

    Podgrajsek, E., Sahlée, E., Bastviken, D., Holst, J., Lindroth, A. et al. (2014). Biogeosciences Discussions, vol. 11, ss. 4225-4233 DOI
  • Turbulent fluxes of momentum and heat over land in the High-Arctic summer: the influence of observation techniques.

    Sjöblom, A. (2014). Polar Research, vol. 33, ss. 21567- DOI
  • Diurnal cycle of lake methane flux.

    Podgrajsek, E., Sahlée, E., Rutgersson, A. (2014). Journal of Geophysical Research, vol. 119, ss. 236-248 DOI
  • Wind Turbine Sound Propagation in the Atmospheric Boundary Layer.

    Öhlund, Olof, 2014 Ladda ner fulltext
  • Meteorological effects on wind turbine sound propagation.

    Öhlund, O., Larsson, C. (2015). Applied Acoustics, vol. 89, ss. 34-41 DOI
  • Wind power in cold climates: Ice mapping methods.

    Bergström, Hans; Olsson, Esbjörn; Söderberg, Stefan; Thorsson, Petra; Undén, Per, 2013 Ladda ner fulltext
  • Wind power in forests: wind and effects on loads.

    Bergström, Hans; Alfredsson, Henrik; Arnqvist, Johan; Carlén, Ingemar; Dellwik, Ebba et al., 2013 Ladda ner fulltext
  • Mean wind and turbulence conditions over forests.

    Arnqvist, Johan, 2013 Ladda ner fulltext
  • Amplitude modulation of sound from wind turbines under various meteorological conditions.

    Larsson, C., Öhlund, O. (2014). Journal of the Acoustical Society of America, vol. 135, ss. 67-73 DOI
  • Influence from Surrounding Land on the Turbulence Measurements Above a Lake.

    Sahlée, E., Rutgersson, A., Podgrajsek, E., Bergström, H. (2014). Boundary-layer Meteorology, vol. 150, ss. 235-258 DOI
  • Sound propagation from wind turbines under various weather conditions.

    Öhlund, O., Larsson, C. (2013). I 5th International Conference on Wind Turbine Noise .
  • Sound from wind turbines during different weather conditions.

    Larsson, C., Öhlund, O. (2013). I InterNoise 2013 .
  • Turbulent momentum flux characterisation using extended multiresolution analysis.

    Nilsson, E., Sahlée, E., Rutgersson, A. (2014). Quarterly Journal of the Royal Meteorological Society, vol. 140, ss. 1715-1728 DOI
  • Boundary layer heights and synoptic situation during summer double‐layer structure events over the Baltic Sea.

    Nilsson, Erik; Arnqvist, Johan; Thorsson, Petra, 2013
  • Air-Sea momentum flux characterization in the presence of wind-following swell.

    Nilsson, Erik; Rutgersson, Anna; Sahlée, Erik
  • Turbulent flux characterization using extended multiresolution analysis.

    Nilsson, Erik; Sahlée, Erik; Rutgersson, Anna
  • Influence of Coastal Upwelling on the Air-Sea Gas Exchange of CO2 in a Baltic Sea Basin.

    Norman, M., Parampil, S., Rutgersson, A., Sahlée, E. (2013). Tellus. Series B, Chemical and physical meteorology, vol. 65, ss. 1-16 DOI
  • Ljudutbredning – Påverkan av väder och vind.

    Larsson, C. (2012). I
  • Long-term measurements of sound from wind turbines during different weather conditions.

    Larsson, C., Öhlund, O. (2012). I Proceedings of Euronoise 2012 Prague: European Acoustics Association (EAA).
  • Variations of sound from wind turbines during different weather conditions.

    Larsson, C., Öhlund, O. (2012). I
  • Ljud från vindkraftverk vid olika väderförhållanden.

    Öhlund, O., Larsson, C. (2012). I
  • Air–Sea Interaction Features in the Baltic Sea and at a Pacific Trade-Wind Site: An Inter-comparison Study.

    Högström, U., Rutgersson, A., Sahlée, E., Smedman, A., Hristov, T. et al. (2013). Boundary-layer Meteorology, vol. 147, ss. 139-163 DOI
  • Impact of improved air–sea gas transfer velocity on fluxes and water chemistry in a Baltic Sea model.

    Norman, M., Rutgersson, A., Sahlée, E. (2013). Journal of Marine Systems, vol. 111, ss. 175-188 DOI
  • Waves and air-sea fluxes from a drifting ASIS buoy during the Southern Ocean Gas Exchange experiment.

    Sahlée, E., Drennan, W., Potter, H., Rebozo, M. (2012). Journal of Geophysical Research, vol. 117, ss. C08003- DOI
  • How swell increases the stress over the ocean.

    Högström, U., Smedman, A., Sahlée, E., Rutgersson, A., Nilsson, E. (2012). I
  • Effect of swell waves on the marine atmospheric boundary layer - an inter-comparison study.

    Smedman, A., Högström, U., Sahlée, E., Rutgersson, A., Nilsson, E. (2012). I
  • Introducing surface waves in a coupled wave-atmosphere regional climate model.

    Rutgersson, A., Nilsson, E., Högström, U., Smedman, A., Sahlée, E. (2012). I
  • Influences of surface gravity waves on atmospheric boundary layer structure and fluxes.

    Nilsson, E., Rutgersson, A., Erik, S., Smedman, A., Sullivan, P. (2012). I
  • Methods for Estimating Air-Sea Fluxes of CO2 Using High-Frequency Measurements.

    Norman, M., Rutgersson, A., Sørensen, L., Sahlée, E. (2012). Boundary-layer Meteorology, vol. 144, ss. 379-400 DOI
  • Matching wind profiles - a question of long streaks.

    Smedman, A., Högström, U., Rutgersson, A., Nilsson, E., Sahlée, E. (2010). I
  • Measurements of Sound from Wind Turbines.

    Larsson, C., Öhlund, O. (2011). I Fourth International Meeting on Wind Turbine Noise
  • Damping of humidity fluctuations in a closed path system.

    Sahlée, E., Kahma, K., Pettersson, H., Drennan, W. (2011). I S. Komori, W. McGillis, R. Kurose (red.) Gas transfer at water surfaces 2010, Kyoto: Kyoto University Press. ss. 516-523
  • Observed carbon dioxide and oxygen dynamics in a Baltic Sea coastal region.

    Wesslander, K., Hall, P., Hjalmarsson, S., Lefevre, D., Omstedt, A. et al. (2011). Journal of Marine Systems, vol. 86, ss. 1-9 DOI
  • Oceanic convective mixing and the impact on air-sea gas transfer velocity.

    Rutgersson, A., Smedman, A., Sahlée, E. (2011). Geophysical Research Letters, vol. 38, ss. L02602- DOI
  • Observational study of the marine atmospheric boundary layer characteristics during swell.

    Smedman, A., Högström, U., Sahlée, E., Drennan, W., Kahma, K. et al. (2009). Journal of the Atmospheric Sciences, vol. 66, ss. 2747-2763 DOI
  • The atmospheric boundary layer during swell – a field study and interpretation of the turbulent kinetic energy budget for high wave ages.

    Högström, U., Smedman, A., Sahleé, E., Drennan, W., Kahma, K. et al. (2009). Journal of the Atmospheric Sciences, vol. 66, ss. 2764-2779 DOI
  • Measurements of the damping of temperature fluctuations in a tube.

    Sahlée, E., Drennan, W. (2009). Boundary-layer Meteorology, vol. 132, ss. 339-348 DOI
  • Influence of the boundary layer height on the global air-sea surface fluxes.

    Sahlée, E., Smedman, A., Högström, U. (2009). Climate Dynamics, vol. 33, ss. 33-44 DOI
  • Physical exchange at the air sea interface, UK-SOLAS field measurements.

    Brooks, I., Yelland, M., Uppstil-Goddard, R., Nightinggale, P., Archer, S. et al. (2009). Bulletin of The American Meteorological Society - (BAMS), vol. 90, ss. 629-644 DOI
  • The annual cycle of carbon dioxide and parameters influencing the air-sea carbon exchange in the Baltic Proper.

    Rutgersson, A., Maria, N., Schneider, B., Pettersson, H., Sahleé, E. (2008). Journal of Marine Systems, vol. 74, ss. 381-394 DOI
  • A case study of air-sea interaction during swell conditions.

    Smedman, A., Högström, U., Bergström, H., Rutgersson, A., Kahma, K. et al. (1999). J. Geophys. Res.: C, vol. 104, ss. 25833-25851
  • Low level jets: A decisive factor for off-shore wind energy siting in the Baltic Sea.

    Smedman, A., Högström, U., Bergström, H. (1996). Wind Engineering, vol. 20, ss. 137-147
  • Measured and modelled local wind fields over a frozen lake in a mountainous area.

    Smedman, A., Bergström, H., Högström, U. (1996). Contributions to Atmospheric Physics, vol. 69, ss. 501-506
  • Homogenization of Swedish temperature data Part III: The long temperature records from Uppsala and Stockholm.

    Moberg, A., Bergström, H. (1997). Int. J. Climatol., vol. 17, ss. 667-699
  • Recent trends in weather and seasonal cycles: An analysis of daily data from Europe and China.

    Yan, Z., Jones, P., Moberg, A., Bergstrom, H., Davies, T. et al. (2001). JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, vol. 106, ss. 5123-5138
  • Mesoscale wind field modifications over the Baltic Sea.

    Källstrand, B., Bergström, H., Hojstrup, J., Smedman, A. (2000). BOUNDARY-LAYER METEOROLOGY, vol. 95, ss. 161-188
  • Wind Statistics Mapping Using a Higher-order Closure Meso-scale Model.

    Bergström, H. (2007). I European Wind Energy Conference 2007 Proceedings
  • Wind Resource Mapping Of Sweden Using The Miuu-Model.

    Bergström, Hans, 2007
  • Thermally driven mesoscale flows - simulations and measurements.

    Törnblom, K., Bergström, H., Johansson, C. (2007). Boreal environment research, vol. 12, ss. 623-641
  • Momentum fluxes and wind gradients in the marine boundary layer: a multi platform study.

    Högström, U., Sahlée, E., Drennan, W., Kahma, K., Smedman, A. et al. (2008). Boreal environment research, vol. 13, ss. 475-502
  • Fluxes of Sensible and Latent Heat and Carbon Dioxide in the Marine Atmospheric Boundary Layer.

    Sahlée, Erik, 2007 Ladda ner fulltext
  • Re-evaluation of the bulk exchange coefficient for humidity at sea during unstable and neutral conditions.

    Sahlée, E., Smedman, A., Högström, U., Rutgersson, A. (2008). Journal of Physical Oceanography, vol. 38, ss. 257-272 DOI
  • Influence of a new turbulence regime on the global air-sea heat fluxes.

    Sahlée, E., Smedman, A., Rutgersson, A., Högström, U. (2008). Journal of Climate, vol. 21, ss. 5925-5941 DOI
  • Spectra of CO2 and water vapour in the marine atmospheric surface layer.

    Sahlée, E., Smedman, A., Rutgersson, A., Högström, U. (2008). Boundary-layer Meteorology, vol. 126, ss. 279-295 DOI
  • Heat/mass transfer in the slightly unstable atmospheric surface layer.

    Smedman, A., Högström, U., Hunt, J., Sahleé, E. (2007). Quarterly Journal of the Royal Meteorological Society, vol. 133, ss. 37-51 DOI
  • Critical re-evaluation of the bulk transfer coefficient for sensible heat over the ocean during unstable and neutral conditions.

    Smedman, A., Högström, U., Sahleé, E., Johansson, C. (2007). Quarterly Journal of the Royal Meteorological Society, vol. 133, ss. 227-250 DOI
  • A Comparison between Webb corrected Humidity and CO2 Spectra in the Marine Atmospheric Boundary Layer.

    Sahlée, E., Smedman, A., Rutgersson, A. (2007). I Fifth Study Conference on BALTEX, ss. 212-
  • Estimating Wind Potential in a Complex Terrain Arctic Mountain Valley.

    Bergström, H., Källstrand, B. (2001). I EWEC’2001, Copenhagen 3rd - 7th July 2001
  • Estimating Offshore Wind Potential – a more complex task than expected?.

    Bergström, H. (2001). I EWEC’2001, Copenhagen 3rd - 7th July 2001
  • Efficient Development of Offshore Windfarms: A New Project for Investigating Wake and Boundary-Layer Interactions.

    Barthelmie, R., Larsen, G., Bergström, H., Magnusson, M., Hassan, U. et al. (2001). I EWEC2001 2-6 July 2001, Copenhagen, Denmark
  • Verification on Wind Energy Predictions Produced by WAsP and Some Mesoscale Models in European Mountains.

    Tammelin, B., Hyvönen, R., Bergström, H., Magnusson, M., Botta, G. et al. (2001). I EWEC2001, 2-6 July 2001, Copenhagen, Denmark
  • A study of the wind field above Gotland.

    Johansson, Cecilia; Bergström, Hans, 2005
  • The wind climate in an Arctic mountain valley, II.

    Bergström, Hans, 2002
  • Indices for daily temperature and precipitation extremes in Europe analyzed for the period 1901–2000.

    Moberg, A., Jones, P., Lister, D., Walther, A., Brunet, M. et al. (2006). J. Geophysical Research, vol. III DOI
  • Daily air temperature and pressure series for Stockholm 1756-1998.

    Moberg, A., Bergström, H., Krigsman, R., Svanered, O. (2002). Climatic Change, ss. 171-212
  • Daily air temperature and pressure series for Uppsala 1722-1998.

    Bergström, H., Moberg, A. (2002). Climatic Change, ss. 231-252
  • Extreme temperature trends in Europe and China based on daily observations.

    Yan, Z., Jones, P., Davies, T., Moberg, A., Bergström, H. et al. (2002). Climatic Change, ss. 355-392
  • Relationships between circulation strength and the variability of growing-season and cold-season climate in northern and central Europe.

    Jones, P., Briffa, K., Osborn, T., Moberg, A., Bergström, H. (2002). The Holocene, vol. 12, ss. 643-656
  • ENDOW:Efficient Development of Offshore Windfarms.

    Barthelmie, R., Larsen, G., Bergström, H., Magnusson, M., Rados, K. et al. (2001). Wind Engineering, vol. 25, ss. 263-270
  • Boundary-layer modelling for wind climate estimates.

    Bergström, H. (2001). Wind Engineering, vol. 25, ss. 289-299
  • Vindkraft och god ljudmiljö..

    Larsson, Conny, 2004
  • Modelling new processes controlling the turbulent heat fluxes over sea in numerical models.

    Rutgersson, A., Carlsson, B., Sahlée, E., Smedman, A. (2005). I EGS-AGU-EUG General Assembly 2005, Vienna, Austria
  • Bulk Exchange Coefficient for Humidity at Sea during Unstable and Neutral Conditions: A Re-evaluation based on new Field Data.

    Sahlée, E., Smedman, A., Högström, U., Rutgersson, A. (2006). I
  • The exchange of sensible and latent heat over the sea.

    Sahlée, Erik, 2005
  • New Findings Concerning the Exchange of Sensible Heat And Water Vapor Over the Ocean.

    Sahlée, E., Smedman, A., Guo Larsén, X., Rutgersson, A., Högström, U. (2004). I 16th Symposium on Boundary Layers and Turbulence
  • An Auxiliary tool to determine the height of the boundary layer.

    Johansson, C., Bergström, H. (2005). Boundary-Layer Meteorology, vol. 115, ss. 423-432 DOI
  • A Study of Valley Winds Using the MIUU Meso-scale Model.

    Bergström, H., Juuso, N. (2006). Wind Energy, vol. 9, ss. 109-129 DOI
  • Variabilitet i vindens energiinnehåll över Skandinavien mellan 1900-2000.

    Johansson, Cecilia; Bergström, Hans, 2004
  • Hur långt kan vi höra?.

    Larsson, C. (2005). Väder och Vatten, ss. 1-
  • Do we have a global noise change?.

    Larsson, C. (2004). I Eleventh International Congress on Sound and Vibration
  • Modeling of Sound Propagation in the Atmospheric Boundary Layer: Application of the MIUU Mesoscale Model.

    Hole, L., Mohr, H. (1999). Journal of Geophysical Research, vol. 104, ss. 11891-11901 DOI
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