Title :
Hybrid electric vehicle simulation with integrated battery Compact Physical Model
Author :
Arnett, Mike ; Papadimitriou, Iakovos ; Milios, John
Author_Institution :
Gamma Technol., Westmont, IL, USA
Abstract :
In order to ensure high accuracy of complete hybrid powertrain simulations, it is important that models capture the temperature-sensitive behavior of the involved components and the flow of energy between subsystems. This paper presents the coupling of a battery Compact Physical Model (CPM) with a hybrid electric vehicle model, including the propulsion system and the thermal aspect of its components, as well as the entire cooling system. The resulting model can accurately predict the interactions between the various subsystems and the various energy paths and thus it can be used for thermal management analysis and control strategy optimization.
Keywords :
battery powered vehicles; hybrid electric vehicles; power engineering computing; power transmission (mechanical); CPM coupling; battery compact physical model; control strategy optimization; cooling system; energy flow; hybrid electric vehicle simulation; hybrid powertrain simulations; integrated battery compact physical model; temperature-sensitive behavior; thermal management analysis; Batteries; Engines; Heating; Hybrid electric vehicles; Mathematical model; System-on-chip;
Conference_Titel :
Transportation Electrification Conference and Expo (ITEC), 2014 IEEE
Conference_Location :
Dearborn, MI
DOI :
10.1109/ITEC.2014.6861867
