Abstract
Due to the new European emission norms internal combustion engines have to comply stricter rules. The new norms contain new requirements that were not included in previous regulations for example the decreased temperature of the cold start or the real driving emission part. The emission cycles for passenger vehicles are completely news, the stricter emission norms for commercial vehicles will follow them within a few years. Despite the increasing spread of alternative transmission systems in road transport Diesel engines are going to be remain in commercial vehicles in the next decades due to their good torque and fuel consumption performance. The emission of Diesel engines can be kept low by several way: by the modification of combustion processes, or by exhaust gas after treatment. To comply future regulations both of them seems to be necessary. By exhaust gas recirculation systems alternative Diesel combustion processes can be realized which can provide lower nitrogen-oxide emission and in several operation points also lower fuel consumption. Exhaust gas recirculation systems also can support the thermal management of a Diesel engine. To utilize the advantages of the recirculated exhaust gases a complex system is necessary to get a freedom in control possibilities: duel loop exhaust gas recirculated systems supplemented with supporter valves on the intake or on the exhaust side. In this paper a pressure and mass flow rate based control oriented engine model will be presented which contains high and low pressure exhaust gas recirculation systems and both of them are supported by exhaust brakes. The model considers four balance volumes and it has five state variables. The model is validated by an engine dyno measurements on a medium duty Diesel engine.
Highlights
The future of internal combustion engines is an important question of today’s road transport
The validation can be done for those state variables which can be measured: - intake manifold pressure (p2); - exhaust manifold pressure (p3); - pressure between the turbine and the first exhaust brake (p4)
The operation of the exhaust brake supported dual loop exhaust gas recirculation (EGR) system modifies the operation of the engine
Summary
The future of internal combustion engines is an important question of today’s road transport. Alternative transmission systems gain space very slow CO2 and harmful emissions of internal combustion engines have to be solved. These engines have many advantages for example the appropriate power and fuel consumption performance or their range. The emission regulations for the engines become more and more strict [1] and in the last few years many non-ideal operation zones got into focus for instance the cold operation on longer slopes. Besides there are many researches to change the conventional Diesel fuel to an alternative one, typically to organic fuels for instance in [3 – 5])
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
