High-resolution simulations of a turbulent boundary layer impacting two obstacles in tandem

[1]  M. Atzori,et al.  LES and RANS calculations of particle dispersion behind a wall-mounted cubic obstacle , 2022, International Journal of Multiphase Flow.

[2]  Ming Zhao,et al.  Numerical study of the flow past two wall-mounted finite-length square cylinders in tandem arrangement , 2021, Physics of Fluids.

[3]  S. Hoyas,et al.  A Code for Simulating Heat Transfer in Turbulent Channel Flow , 2021, Mathematics.

[4]  Ricardo Vinuesa,et al.  On the Experimental, Numerical and Data-Driven Methods to Study Urban Flows , 2021, Energies.

[5]  I. Calmet,et al.  Turbulence-Kinetic-Energy Budget in the Urban-Like Boundary Layer Using Large-Eddy Simulation , 2020, Boundary-Layer Meteorology.

[6]  Prashant Kumar,et al.  Wake transition for surface mounted rectangular cylinder due to incoming shear flow , 2020 .

[7]  C. Baker,et al.  On the assessment of pedestrian distress in urban winds , 2020 .

[8]  S. Rezaeiravesh,et al.  An uncertainty-quantification framework for assessing accuracy, sensitivity, and robustness in computational fluid dynamics , 2020, J. Comput. Sci..

[9]  D. Henningson,et al.  Spectral proper orthogonal decomposition and resolvent analysis of near-wall coherent structures in turbulent pipe flows , 2020, Journal of Fluid Mechanics.

[10]  R. Vinuesa,et al.  Effect of adverse pressure gradients on turbulent wing boundary layers , 2019, Journal of Fluid Mechanics.

[11]  Ulrich Pöschl,et al.  Cardiovascular disease burden from ambient air pollution in Europe reassessed using novel hazard ratio functions , 2019, European heart journal.

[12]  J. G. Bartzis,et al.  Large Eddy Simulation study on the structure of turbulent flow in a complex city , 2018, Journal of Wind Engineering and Industrial Aerodynamics.

[13]  D. Henningson,et al.  Unsteady aerodynamic effects in small-amplitude pitch oscillations of an airfoil , 2018, International Journal of Heat and Fluid Flow.

[14]  R. Vinuesa,et al.  Turbulent Structure of a Simplified Urban Fluid Flow Studied Through Stereoscopic Particle Image Velocimetry , 2018, Boundary-Layer Meteorology.

[15]  A. U. Weerasuriya,et al.  A wind tunnel study of effects of twisted wind flows on the pedestrian-level wind field in an urban environment , 2017, Building and Environment.

[16]  J. C. Vassilicos,et al.  Direct numerical simulations of a wall-attached cube immersed in laminar and turbulent boundary layers , 2017 .

[17]  Ming Zhao,et al.  Direct numerical simulation of flow around a surface-mounted finite square cylinder at low Reynolds numbers , 2017 .

[18]  Ricardo Vinuesa,et al.  Aspect ratio effect on particle transport in turbulent duct flows , 2016, 1612.01108.

[19]  Dan S. Henningson,et al.  Direct numerical simulation of the flow around a wing section at moderate Reynolds number , 2016 .

[20]  Manfred Krafczyk,et al.  Spatial Characteristics of Roughness Sublayer Mean Flow and Turbulence Over a Realistic Urban Surface , 2016, Boundary-Layer Meteorology.

[21]  R. Vinuesa,et al.  On determining characteristic length scales in pressure gradient turbulent boundary layers , 2016 .

[22]  G. Venter,et al.  Computational simulation of the turbulent flow around a surface mounted rectangular prism , 2015 .

[23]  Dan S. Henningson,et al.  Direct numerical simulation of the flow around a wall-mounted square cylinder under various inflow conditions , 2015 .

[24]  Fernando Porté-Agel,et al.  Adjustment of Turbulent Boundary-Layer Flow to Idealized Urban Surfaces: A Large-Eddy Simulation Study , 2015, Boundary-Layer Meteorology.

[25]  Philip P. LePoudre,et al.  Direct numerical simulation of turbulent wake behind a surface-mounted square cylinder , 2014 .

[26]  P. Schlatter,et al.  Simulation and validation of a spatially evolving turbulent boundary layer up to Reθ = 8300 , 2014 .

[27]  Suchuan Dong,et al.  A robust and accurate outflow boundary condition for incompressible flow simulations on severely-truncated unbounded domains , 2014, J. Comput. Phys..

[28]  Arun K. Saha,et al.  Unsteady flow past a finite square cylinder mounted on a wall at low Reynolds number , 2013 .

[29]  Ramis Örlü,et al.  Turbulent boundary layers at moderate Reynolds numbers: inflow length and tripping effects , 2012, Journal of Fluid Mechanics.

[30]  Tetsuya Takemi,et al.  Large‐eddy simulation of urban boundary‐layer flows by generating turbulent inflows from mesoscale meteorological simulations , 2012 .

[31]  D. Bergstrom,et al.  The effect of subgrid-scale model on prediction of flow around a surface-mounted finite square cylinder , 2011 .

[32]  Brent C. Hedquist,et al.  Flow, turbulence, and pollutant dispersion in urban atmospheresa) , 2010 .

[33]  Bruno Monnier,et al.  Stereoscopic Particle Image Velocimetry Measurements in an Urban-Type Boundary Layer: Insight into Flow Regimes and Incidence Angle Effect , 2010 .

[34]  A. Martilli,et al.  Comparison Between Large-Eddy Simulation and Reynolds-Averaged Navier–Stokes Computations for the MUST Field Experiment. Part I: Study of the Flow for an Incident Wind Directed Perpendicularly to the Front Array of Containers , 2010 .

[35]  M. Parlange,et al.  The Effects of Building Representation and Clustering in Large-Eddy Simulations of Flows in Urban Canopies , 2009 .

[36]  Javier Jiménez,et al.  A high-resolution code for turbulent boundary layers , 2009, J. Comput. Phys..

[37]  Muhammad R. Hajj,et al.  Large-eddy simulation of flow over a surface-mounted prism using a high-order finite-difference scheme , 2008 .

[38]  Zheng-Tong Xie,et al.  LES and RANS for Turbulent Flow over Arrays of Wall-Mounted Obstacles , 2006 .

[39]  M. Parlange,et al.  Modeling flow around bluff bodies and predicting urban dispersion using large eddy simulation. , 2006, Environmental science & technology.

[40]  Stephen E Belcher,et al.  Mixing and transport in urban areas , 2005, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[41]  Leonhard Kleiser,et al.  LES of transitional flows using the approximate deconvolution model , 2004 .

[42]  E. Peirano,et al.  PDF model based on Langevin equation for polydispersed two-phase flows applied to a bluff-body gas-solid flow , 2004, 1008.2890.

[43]  Chun-Ho Liu,et al.  Turbulent Plane Couette Flow and Scalar Transport at Low Reynolds Number , 2003 .

[44]  R. Britter,et al.  FLOW AND DISPERSION IN URBAN AREAS , 2003 .

[45]  Sandrine Anquetin,et al.  Pollutant dispersion and thermal effects in urban street canyons , 1996 .

[46]  T. Oke Street design and urban canopy layer climate , 1988 .

[47]  A. Patera A spectral element method for fluid dynamics: Laminar flow in a channel expansion , 1984 .

[48]  Rex Britter,et al.  Velocity measurements and order of magnitude estimates of the flow between two buildings in a simulated atmospheric boundary layer , 1979 .

[49]  Yasunobu Ashie,et al.  Numerical Investigations of Mean Winds Within Canopies of Regularly Arrayed Cubical Buildings Under Neutral Stability Conditions , 2009 .

[50]  T. A. Zang,et al.  Spectral methods for fluid dynamics , 1987 .

[51]  Hassan M. Nagib,et al.  Wind microclimate around buildings: Characteristics and control , 1984 .

[52]  N. Isyumov,et al.  Studies of the pedestrian level wind environment at the boundary layer wind tunnel laboratory of the University of Western Ontario , 1978 .