| Aerodymanics and other efficiencies in transporting goods | p. 3 |
| Commercial vehicle aerodynamic drag reduction : historical perspective as a guide | p. 9 |
| The status of detached-eddy simulation for bluff bodies | p. 29 |
| Exploring the flow around a simplified bus with large eddy simulation and topological tools | p. 49 |
| Unsteady flow around cylinders with cavities | p. 65 |
| Complex CFD for everyday use - practical applications for vehicle analysis | p. 75 |
| Large eddy simulation of flow around the Ahmed body | p. 77 |
| Detached-eddy simulation of the ground transportation system | p. 89 |
| Time dependent vs. steady state calculations of external aerodynamics | p. 107 |
| Aerodynamics of ground vehicles - toward reliable and affordable CFD | p. 119 |
| Improved tractor-trailer integration and aerodynamics through the use of CFD | p. 121 |
| Large eddy simulation of turbulence via lattice Boltzmann based approach : fundamental physics and practical applications | p. 123 |
| Aspects of CFD application to vehicle aerodynamic design | p. 125 |
| PIV study of the near wake of a pickup truck | p. 129 |
| Applications of DDPIV to studies associated with road vehicles | p. 131 |
| Molecular tagging velocimetry (MTV) and its automotive applications | p. 143 |
| Quantitative flow visualization for large scale wind tunnels | p. 157 |
| An experimental study of the genetic conventional model (GCM) in the NASA Ames 7-by-10-foot wind tunnel | p. 171 |
| The measurement of wake and gap flows of the generic conventional truck model (GCM) using three-component PIV | p. 173 |
| On the aerodynamics of tractor-trailers | p. 185 |
| RANS simulations of a simplified tractor/trailer geometry | p. 207 |
| Computational simulation of a heavy vehicle trailer wake | p. 219 |
| Drag reduction of two-dimensional bodies by addition of boat tails | p. 237 |
| Drag reduction of a tractor-trailer using planar boat tail plates | p. 249 |
| RANS simulations of passive and active drag reduction devices for a road vehicle | p. 267 |
| Pneumatic heavy vehicle aerodynamic drag reduction, safety enhancement, and performance improvement | p. 277 |
| Base flaps and oscillatory perturbations to decrease base drag | p. 303 |
| Use of computational aerodynamics for commercial vehicle development at DaimlerChrysler | p. 319 |
| Numerical simulation of the flow about a train model | p. 329 |
| Adaptation of eddy-viscosity turbulence models to unsteady separated flow behind vehicles | p. 339 |
| Simulation of vehicle aerodynamics using a vortex element method | p. 353 |
| Energetic and CFD modeling considerations of thermal management | p. 369 |
| Measurement of underhood temperatures with various ventilations | p. 371 |
| Measurement and analysis of underhood ventilation air flow and temperatures for an off-road machine | p. 373 |
| Flow field and thermal management analysis of an armored vehicle engine compartment | p. 385 |
| Experiments and CFD in train aerodynamics : a young and turbulent association full of potential | p. 413 |
| Recent studies of train slipstreams | p. 415 |
| Aerodynamics effects in railway tunnels as speed is increased | p. 431 |
| Flow-induced vibration of high-speed trains in tunnels | p. 443 |
| How to reduce the cross wind sensitivity of trains | p. 453 |
| CFD study of side wind effects on a high speed train | p. 469 |
| Commercial CFD code validation for heavy-vehicle external aerodynamics simulation | p. 473 |
| Computational parametric study on external aerodynamics of heavy trucks | p. 485 |
| Applicability of the vortex methods for aerodynamics of heavy vehicles | p. 503 |
| Development of a wind tunnel model mounting configuration for heavy duty trucks | p. 517 |
| A ground-based research vehicle for base drag studies at subsonic speeds | p. 519 |
| Splash and spray measurement and control : recent progress in Quebec | p. 533 |
| Wind-tunnel evaluation of an aerodynamic heat exchanger | p. 549 |
| Automated driving of trucks and buses : opportunities for increasing productivity and safety while reducing fuel use and emissions | p. 563 |
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