Title :
Enabling fuel efficient vehicles through integration of design tools and early-stage cost estimation
Author :
Rivest, Nathalie ; Poulizac, Claire ; Roth, Richard ; Lee, Theresa ; Kirchain, Randolph
Abstract :
Summary form only given. Transportation is, on average, responsible for 27% of US greenhouse gas emissions. Consequently, improvements in vehicle design improving fuel economy, and therefore reducing emissions, are an important step towards meeting emission reduction goals. The primary ways to improve vehicle fuel economy include the use of advanced powertrains, improved rolling resistance and aerodynamics, and vehicle lightweighting [1]. This research centers on lightweighting, which is complimentary to the other methods, and as such is likely to be part of any strategy aimed at reduced fuel use.
Keywords :
aerodynamics; air pollution control; costing; design for environment; environmental economics; fuel economy; industrial economics; power transmission (mechanical); transportation; US greenhouse gas emission; United States; aerodynamics; design tool; early-stage cost estimation; emission reduction; fuel economy; fuel efficient vehicle; powertrains; reduced fuel use; rolling resistance; vehicle design; vehicle lightweighting; Estimation; Fuels; Materials; Optimization; Topology; Vehicles;
Conference_Titel :
Sustainable Systems and Technology (ISSST), 2012 IEEE International Symposium on
Conference_Location :
Boston, MA
Print_ISBN :
978-1-4673-2003-0
DOI :
10.1109/ISSST.2012.6227985
