Theoretically, from a control design point of view, modern diesel engines are dynamic, nonlinear, MIMO (multiple-input and multiple-output) systems. This paper demonstrates that this assumption is not correct and a suitable model for predictive control (MPC) of power (torque), NOx and soot emissions based on temperature feedback is perfectly possible on SCR (Selective Catalytic Reduction) CRDITDs (Common Rail Direct Injection Turbocharged Diesel). The method optimizes the temperature at a selected point of the engine exhaust. This reference point is the turbocharger intake for Euro 0 (aircraft). For Euro 6+/US Tier 3a+ SCR diesels, the reference point is the intake of the "emission control system" usually at the outlet of turbocharging syst...
[EN] The present paper studies the optimal heat release law in a Diesel engine to maximise the indic...
Heavy-duty diesel engines are used in a wide range of applications. For varying operating environmen...
This thesis identifies and assesses strategies for achieving Low Soot Combustion (LSC) in automotive...
Theoretically, from a control design point of view, modern diesel engines are dynamic, nonlinear, MI...
Achieving upcoming emissions legislation (Euro VI) for heavy trucks is a serious challenge for the m...
While the Diesel Particulate Filter (DPF) is actually a quasi-standard equipment in the European Die...
Modern diesel engines are typically equipped with common rail injection system, variable geometry tu...
Now-a-days, diesel engines are more popular over gasoline engines due to their undisputed benefit of...
2014 - 2015The interest in Diesel engines for automotive application has dramatically grown in the l...
The work reported in this thesis explores innovative control structures and controller design for a ...
A recently developed strategy to calculate set points for controllable diesel engine systems is desc...
In Diesel engines the optimization of engine-out emissions, combustion noise and fuel consumption re...
The new emissions legislation for the heavy-duty (HD) diesel engine will require cutting NOx emissio...
Copyright © 2009 SAE International In order to make efficient use of a Diesel engine equipped with a...
Heavy-duty diesel engines are used in a wide range of applications. For varying operating environmen...
[EN] The present paper studies the optimal heat release law in a Diesel engine to maximise the indic...
Heavy-duty diesel engines are used in a wide range of applications. For varying operating environmen...
This thesis identifies and assesses strategies for achieving Low Soot Combustion (LSC) in automotive...
Theoretically, from a control design point of view, modern diesel engines are dynamic, nonlinear, MI...
Achieving upcoming emissions legislation (Euro VI) for heavy trucks is a serious challenge for the m...
While the Diesel Particulate Filter (DPF) is actually a quasi-standard equipment in the European Die...
Modern diesel engines are typically equipped with common rail injection system, variable geometry tu...
Now-a-days, diesel engines are more popular over gasoline engines due to their undisputed benefit of...
2014 - 2015The interest in Diesel engines for automotive application has dramatically grown in the l...
The work reported in this thesis explores innovative control structures and controller design for a ...
A recently developed strategy to calculate set points for controllable diesel engine systems is desc...
In Diesel engines the optimization of engine-out emissions, combustion noise and fuel consumption re...
The new emissions legislation for the heavy-duty (HD) diesel engine will require cutting NOx emissio...
Copyright © 2009 SAE International In order to make efficient use of a Diesel engine equipped with a...
Heavy-duty diesel engines are used in a wide range of applications. For varying operating environmen...
[EN] The present paper studies the optimal heat release law in a Diesel engine to maximise the indic...
Heavy-duty diesel engines are used in a wide range of applications. For varying operating environmen...
This thesis identifies and assesses strategies for achieving Low Soot Combustion (LSC) in automotive...