Search Results

High pressure EGR provides NOx emission reduction even at low exhaust temperatures. To maintain a safe EGR system operation over a required lifetime, the EGR cooler fouling must not exceed an allowable level, even if the engine is operated under worst-case conditions. A reliable fouling simulation model represents a valuable tool in the engine development process, which validates operating and calibration strategies regarding fouling tendency, helping to avoid fouling issues in a late development phase close to series production. Long-chained hydrocarbons in the exhaust gas essentially impact the fouling layer formation. Therefore, a simulation model requires reliable input data especially regarding mass flow of long-chained hydrocarbons transported into the cooler. There is a huge number of different hydrocarbon species in the exhaust gas, but their individual concentration typically is very low, close to the detection limit of standard in-situ measurement equipment like GC-MS.

This paper considers an application of reference governor (RG) to automotive diesel aftertreatment temperature control. Recently, regulations on vehicle emissions have become more stringent, and engine hardware and software are expected to be more complicated. It is getting more difficult to guarantee constraints in control systems as well as good control performance. Among model-based control methods that can directly treat constraints, this paper focuses on the RG, which has recently attracted a lot of attention as one method of model prediction-based control. In the RG, references in tracking control are modified based on future prediction so that the predicted outputs in a closed-loop system satisfy the constraints. This paper proposes an online RG algorithm, taking account of the real-time implementation on engine embedded controllers.

This study evaluated the response of restrained post-mortem human subjects (PMHS) in 40 km/h frontal sled tests. Eight male PMHS were restrained on a rigid planar seat by a custom 3-point shoulder and lap belt. A video motion tracking system measured three-dimensional trajectories of multiple skeletal sites on the torso allowing quantification of ribcage deformation. Anterior and superior displacement of the lower ribcage may have contributed to sternal fractures occurring early in the event, at displacement levels below those typically considered injurious, suggesting that fracture risk is not fully described by traditional definitions of chest deformation. The methodology presented here produced novel kinematic data that will be useful in developing biofidelic human models.

Emergency situations rarely occur in a driver's experience and the braking and steering manoeuvres that are then required are usually outside the routine physical behaviour ranges. Immediate reactions are automatic and are therefore unlikely to include physical movements that go beyond these limits. It has always been difficult, however, to prove this because simulators could not create total realism, accident studies do not show brake pedal behaviour and realistic experiments are unethical and dangerous. This paper reviews what is known about driver braking behaviour together with accident studies. Experiments performed by Lucas are described in which pseudo-realistic accident situations are created and braking behaviour modelled.

The University of Virginia is investigating the biomechanical response and the injury tolerance of the lower extremities. This paper presents the experimental and simulation work used to study the injury patterns and mechanisms of the ankle/foot complex. The simulation effort has developed a segmented lower limb and foot model for an occupant simulator program to study the interactions of the foot with intruding toepan and pedal components. The experimental procedures include static tests, pendulum impacts, and full-scale sled tests with the Advanced Anthropomorphic Test Device and human cadavers. In these tests, the response of the lower extremities is characterized with analogous dummy and cadaver instrumentation packages that include strain gauges, electrogoniometers, angular rate sensors, accelerometers, and load cells. An external apparatus is applied to the surrogate's lower extremities to simulate the effects of muscle tensing.

Conventional cruise control systems have been in use for many years. Their function is to maintain a preset vehicle speed thus improving the comfort for the driver during steady driving conditions. Most systems achieve this by having a small electronic control unit which monitors vehicle speed and driver interface controls and operates the throttle butterfly to control engine power. Figure 1. Various interlock features are fitted to prevent unwanted engine power increases in the event of a system failure. Cruise control is widely fitted in the North American market, but on the more crowded roads of Western Europe its use is somewhat restricted. The ability to maintain a fixed speed is of limited use when traffic conditions dictate the widely varying speeds that are commonplace in the UK and becoming more common in the rest of Western Europe and North America.