Add to ORKG© 2016 The electrification of engine components offers significant opportunities for fuel economy improvements, including the use of an electrified turbocharger for engine downsizing and exhaust gas energy recovery. By installing an electrical device on the turbocharger, the excess energy in the air system can be captured, stored, and re-used. This new configuration requires a new control structure to manage the air path dynamics. The selection of optimal setpoints for each operating point is crucial for achieving the full fuel economy benefits. In this paper, a control-oriented model for an electrified turbocharged diesel engine is analysed. Based on this model, a structured approach for selecting control variables is proposed. A model-bas...
The proposed supervisory control system (SCS) uses a control map to maximize the powertrain efficien...
In this paper, Reactivity Controlled Compression Ignition (RCCI) with an electrically-assisted turbo...
Real-time control strategies and their performance related to the optimal control trajectories for a...
The electrification of engine components offers significant opportunities for fuel efficiency improv...
© 2015 IEEE.Recovering energy from exhaust gas is seen as the promising solution to save fuel consum...
Engine electrification is a critical technology in the promotion of engine fuel efficiency, among wh...
The electric turbocharger provides great potential for vehicle fuel efficiency improvement, exhaust ...
Engine electrification is a critical technology in the promotion of engine fuel efficiency, among wh...
Electrified turbocharger is a critical technology for engine downsizing and is a cost-effective solu...
Engine downsizing is a promising trend for improving fuel efficiency of conventional powertrain vehi...
The electric turbocharger is a promising solution for engine downsizing. It provides great potential...
Engine downsizing is a promising trend to decarbonise vehicles but it also poses a challenge on vehi...
In this paper, a fuzzy-tuned equivalent consumption minimization strategy (F-ECMS) is proposed as an...
Reducing the fuel consumption of today's vehicle fleet is of great importance due to the environment...
The proposed supervisory control system (SCS) uses a control map to maximize the powertrain efficien...
In this paper, Reactivity Controlled Compression Ignition (RCCI) with an electrically-assisted turbo...
Real-time control strategies and their performance related to the optimal control trajectories for a...
The electrification of engine components offers significant opportunities for fuel efficiency improv...
© 2015 IEEE.Recovering energy from exhaust gas is seen as the promising solution to save fuel consum...
Engine electrification is a critical technology in the promotion of engine fuel efficiency, among wh...
The electric turbocharger provides great potential for vehicle fuel efficiency improvement, exhaust ...
Engine electrification is a critical technology in the promotion of engine fuel efficiency, among wh...
Electrified turbocharger is a critical technology for engine downsizing and is a cost-effective solu...
Engine downsizing is a promising trend for improving fuel efficiency of conventional powertrain vehi...
The electric turbocharger is a promising solution for engine downsizing. It provides great potential...
Engine downsizing is a promising trend to decarbonise vehicles but it also poses a challenge on vehi...
In this paper, a fuzzy-tuned equivalent consumption minimization strategy (F-ECMS) is proposed as an...
Reducing the fuel consumption of today's vehicle fleet is of great importance due to the environment...
The proposed supervisory control system (SCS) uses a control map to maximize the powertrain efficien...
In this paper, Reactivity Controlled Compression Ignition (RCCI) with an electrically-assisted turbo...
Real-time control strategies and their performance related to the optimal control trajectories for a...