Title :
Hybrid electric sport utility vehicles
Author :
Tyrus, Jason M. ; Long, Ryan M. ; Kramskaya, Marina ; Fertman, Yuriy ; Emadi, Ali
Author_Institution :
Illinois Inst. of Technol., Chicago, IL, USA
Abstract :
Drive-train hybridization improves the fuel economy and emissions of vehicles. This is the concept of hybrid electric vehicles (HEVs). Application of this concept in sport utility vehicles (SUVs), which consume more fuel as compared to passenger cars, will positively have a great impact. However, dynamic performances such as acceleration and gradeability also are of great importance in SUVs. Therefore, the optimum choice of the system hybridization level includes complex tradeoffs between the engine and electric propulsion motor on the one hand and fuel economy, performance, and cost on the other. In this paper, we classify SUVs as small, medium, and large vehicles. Effects of hybridization on the fuel economy and dynamic performances of each class of SUVs are investigated. Different hybridization levels, from mild to full hybrid electric traction systems, are examined.
Keywords :
battery powered vehicles; electric motors; electric propulsion; fuel cell vehicles; hybrid electric vehicles; optimisation; power convertors; traction motor drives; battery optimization; drive-train hybridization; electric drives; electric propulsion motor; fuel economy; hybrid electric sport utility vehicles; hybrid electric traction systems; power charge-sustaining control strategy; power electronic converters; Fuel economy; Hafnium; Hybrid electric vehicles; Ice; Internal combustion engines; Propulsion; Testing; Torque; Vehicle driving; Vehicle dynamics; Electric drives; HEVs; SUVs; electric propulsion; hybrid electric vehicles; power electronic converters; sport utility vehicles; vehicle simulation;
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2004.832418
