Browse Publications Technical Papers 2018-37-0016
2018-05-30

Application of Adjoint Methods on Drag Reduction of Current Production Cars 2018-37-0016

Automotive manufacturers are facing stronger and stronger pressure to optimize all aspects related to fuel consumption of cars, and aerodynamic drag makes no exception, due to increasing government enforcing rules for the reduction of the emissions and the increasing influence of aerodynamic performance on fuel consumption with WLTC and RDE driving cycles.
Nowadays, CFD simulation is a common tool across automotive industries for the assessment and the optimization of vehicle resistance in the design phase. The full power of these numerical methods of studying many design variants in advance of experimental testing, however, can be fully exploited when coupled with optimization techniques, always keeping into account constraints and aesthetical demands. On the other hand, a massive use of CFD optimization can lead to unaffordable computational efforts or a limitation of the design exploration space.
The exploration of new time-saving CFD and optimization techniques are necessary in order to overcome these limitations; for this reason, a gradient-based optimization using adjoint method applied to road vehicle aerodynamic drag reduction has been evaluated. The main advantage of this method is the independence from the number of analyzed design variables, allowing to explore a potential infinite number of geometrical parameters with turn-around times compatible with product development timetables.
In this paper, methodology and application of the adjoint solver on full production vehicles are presented, showing how surface sensitivity on drag generation can drive design decisions and can be coupled with optimization workflows.

SAE MOBILUS

Subscribers can view annotate, and download all of SAE's content. Learn More »

Access SAE MOBILUS »

Preview Document Add to Cart
Members save up to 16% off list price.
Login to see discount.
Special Offer: Download multiple Technical Papers each year? TechSelect is a cost-effective subscription option to select and download 12-100 full-text Technical Papers per year. Find more information here.
We also recommend:
TECHNICAL PAPER

Numerical Investigation of Tonal Noise at Automotive Side Mirrors due to Aeroacoustic Feedback

2020-01-1514

View Details

TECHNICAL PAPER

Combined Drag and Cooling Optimization of a Car Vehicle with an Adjoint-Based Approach

2018-01-0721

View Details

TECHNICAL PAPER

Introduction of the AeroSUV-A New Generic SUV Model for Aerodynamic Research

2019-01-0646

View Details

X