Large-Eddy Simulation
Graduate students and post-docs from my research group are identified by * and + signs, respectively.
[21] Dai*, Y., Basu, S., Maronga, B., and de Roode, S. (2021). "Addressing the grid-size sensitivity issue in large-eddy simulations of stable boundary layers", Boundary-Layer Meteorology, 178, 63-89.
[20] Lu, N.-Y., Basu, S., and Manuel, L. (2019). "On wind turbine loads during evening transition period". Wind Energy, online first. (available at: https://onlinelibrary.wiley.com/doi/10.1002/we.2355)
[19] Hawbecker*, P., Basu, S., and Manuel, L. (2018). "Investigating the impact of atmospheric stability on thunderstorm outflow winds and turbulence", Wind Energy Science, 3, 203-219. (open access)
[18] Basu, S. and Lacser, A. (2017). "A cautionary note on the usage of Monin-Obukhov similarity theory in very high-resolution large-eddy simulations", Boundary-Layer Meteorology, 163, 351-355.
[17] He+, P., and Basu, S. (2015). "Development of similarity relationships for energy dissipation rate and temperature structure parameter in stably stratified flows: a direct numerical simulation approach", Environmental Fluid Mechanics, 16(2), 373-399.
[16] Park, J., Manuel, L., and Basu, S. (2015). "Toward isolation of salient features in stable boundary layer wind fields that influence loads on wind turbines", Energies, 8(4), 2977-3012.
Wang*, Y., Basu, S., and Manuel, L. (2015). "Coupled mesoscale-large-eddy modeling of realistic stable boundary layer turbulence", (unpublished work).
[15] Basu, S., and He+, P. (2014) "Quantifying the dependence of temperature and refractive index structure parameters on atmospheric stability using direct and large-eddy simulations", Proc. pcDVT, doi: 10.1364/PCDVT.2014.PM2E.3.
[14] Edwards, J. M., Basu, S., Bosveld, F. C., and Holtslag, A. A. M. (2014). "The impact of radiation on the GABLS3 large-eddy simulation through the night and during the morning transition", Boundary-Layer Meteorology, 152(2), 189-211.
[13] Holtslag, A. A. M., Svensson, G., Baas, P., Basu, S., Beare, R. J., Beljaars, A. C. M., Bosveld, F. C., Cuxart, J., Lindvall, J., Steeneveld, G.-J., Tjernström, M, and van de Wiel, B. J. H. (2013). "Stable atmospheric boundary layers and diurnal cycles – challenges for weather and climate models", Bulletin of the American Meteorological Society, DOI 10.1175/BAMS-D-11-00187.1
[12] Richardson*, H., Basu, S., and Holtslag, A. A. M. (2013). "Improving stable boundary layer height estimation using a stability-dependent critical bulk Richardson number-based approach", Boundary-Layer Meteorology, 148(1), 93-109.
[11] Park, J., Basu, S., and Manuel, L. (2013). "Large-eddy simulation of stable boundary layer turbulence and estimation of associated wind turbine loads", Wind Energy, 17(3), 359-384.
Basu, S. (2012). "Turbulent flow modeling", Handbook of Environmental Fluid Dynamics, Volume Two, edited by H. J. S. Fernando, CRC Press/Taylor & Francis Group, LLC. ISBN: 978-1-4665-5601-0.
[10] Sim, C., Basu, S., and Manuel, L. (2012). "On space-time resolution of inflow representations for wind turbine loads analysis", Energies, 5(7), 2071-2092.
Basu, S., Holtslag, A. A. M., and Bosveld, F. C. (2011). "GABLS3 LES intercomparison study", ECMWF/GABLS Workshop on “Diurnal cycles and the stable atmospheric boundary layer”, ECMWF, 75-82.
[9] Basu, S. (2009). "Can the dynamic eddy-viscosity class of subgrid-scale models capture inertial-range properties of Burgers turbulence?" Journal of Turbulence, 10, 1-16.
[8] Basu, S., Vinuesa, J.-F., and Swift, A. (2008). "Dynamic LES modeling of a diurnal cycle", Journal of Applied Meteorology and Climatology, 47, 1156-1174.
[7] Basu, S., Holtslag, AAM, van de Wiel, BJH, Moene, A., and Steeneveld, G.-J. (2008). "An inconvenient 'truth' about using sensible heat flux as a surface boundary condition in models under stably stratified regimes", Acta Geophysica - Special issue in The Latest Topics in Boundary-LayerMeteorology, 56(1), 88-99.
[6] Vinuesa, J-F., Basu, S., and Galmarini, S. (2007). "The diurnal evolution of 222Rn and its progeny in the atmospheric boundary layer during the Wangara experiment", Atmospheric Chemistry and Physics, 7, 5003-5019.
[5] Anderson*, W., Basu, S., and Letchford, C. (2007). "Comparison of dynamic subgrid-scale models for simulations of neutrally buoyant shear-driven atmospheric boundary layer flows", Environmental Fluid Mechanics, 7, 195-215.
[4] Basu, S. and Porté-Agel, F. (2006). "Large-eddy simulation of stably stratified atmospheric boundary layer turbulence: a locally-averaged scale-dependent dynamic modeling approach", Journal of the Atmospheric Sciences, 63, 2074-2091.
[3] Vinuesa, J.-F., Porté-Agel, F., Basu, S., and Stoll, R. (2006). "Subgrid-scale modeling of reacting scalar fluxes in large-eddy simulations of atmospheric boundary layers", Environmental Fluid Mechanics, 6, 115-131.
[2] Basu, S., Porté-Agel, F., Foufoula-Georgiou, E., Vinuesa, J.-F. and Pahlow, M. (2006). "Revisiting the local scaling hypothesis in stably stratified atmospheric boundary layer turbulence: an integration of field and laboratory measurements with large-eddy simulations", Boundary-Layer Meteorology, 119, 473-500.
[1] Basu, S., Foufoula-Georgiou, E., and Porté-Agel, F. (2004). "Synthetic turbulence, fractal interpolation and large-eddy simulation", Physical Review E, 70, 026310.