In order to increase overall energy efficiency of road vehicles, new systems that are able to recover vehicle’s kinetic energy usually lost in dissipating process of frictional braking are being developed. This study was done to look at the effects of integrating Mechanical Flywheel-based Kinetic Energy Recovery System (KERS) into an automotive vehicle. Possible system architectures, due to different connection point of the KERS into the vehicle driveline, were proposed and investigated. Interaction of the system main components (IC engine, vehicle Gearbox, KERS subsystems) was analyzed and explained. In particular, three plots are proposed to introduce a graphical representation that can help the project manager to understand the effect of different parameter values related to the main system components on the overall system behavior during energy transfer from the vehicle to KERS and back.

D. Moro, N. Cavina, V. Ravaglioli, I. Trivic (2010). Guidelines for Integration of Kinetic Energy Recovery System (KERS) based on Mechanical Flywheel in an Automotive Vehicle. WARRENDALE, PA : SAE International [10.4271/2010-01-1448].

Guidelines for Integration of Kinetic Energy Recovery System (KERS) based on Mechanical Flywheel in an Automotive Vehicle

MORO, DAVIDE;CAVINA, NICOLO';RAVAGLIOLI, VITTORIO;TRIVIC, IGOR
2010

Abstract

In order to increase overall energy efficiency of road vehicles, new systems that are able to recover vehicle’s kinetic energy usually lost in dissipating process of frictional braking are being developed. This study was done to look at the effects of integrating Mechanical Flywheel-based Kinetic Energy Recovery System (KERS) into an automotive vehicle. Possible system architectures, due to different connection point of the KERS into the vehicle driveline, were proposed and investigated. Interaction of the system main components (IC engine, vehicle Gearbox, KERS subsystems) was analyzed and explained. In particular, three plots are proposed to introduce a graphical representation that can help the project manager to understand the effect of different parameter values related to the main system components on the overall system behavior during energy transfer from the vehicle to KERS and back.
2010
Power and Propulsion Technical Papaer
1
11
D. Moro, N. Cavina, V. Ravaglioli, I. Trivic (2010). Guidelines for Integration of Kinetic Energy Recovery System (KERS) based on Mechanical Flywheel in an Automotive Vehicle. WARRENDALE, PA : SAE International [10.4271/2010-01-1448].
D. Moro; N. Cavina; V. Ravaglioli; I. Trivic
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/94812
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