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As countermeasures against global warming caused by carbon dioxide, improvement of automotive fuel economy to lower CO2 emission becomes important. In order to promote less CO2 vehicles, appropriate methods to evaluate vehicle fuel economy performance are needed. However, the existing fuel economy test is limited to passenger cars and light duty trucks. The test is executed on a chassis dynamometer. However, if this test method is applied to heavy-duty vehicles (HDV), a large sized chassis dynamometer is needed. Furthermore, heavy duty vehicles have wide variations in a combination of an equipped engine, body shape, a transmission gear, a permissible limit of pay load, and so on. This leads to the increase in the number of chassis dynamometer tests. Therefore, it is difficult to use chassis dynamometer test to evaluate HDV fuel economy performance.

The Thermogravimetry SOF measurement method is developed as simple and time-saving method. It is experimentally revealed that this method is useful for SOF measurement and the method has potential to distinguish SOF component. The oxidation catalysts can effectively reduce particulate matter under actual driving conditions. Sulfate formation suppressing oxidation catalyst reduces high molecular number paraffins. However, it is important for further development of oxidation catalyst to improve the oxidation ability of polar hydrocarbons included in SOF. The oxidation catalysts can effectively reduce CO, HC emissions under actual driving conditions. This is caused by the temperature rise of oxidation catalysts during accelerations.

The cordierite filter has been widely studied because of it's inherent, high capacities in the collection efficiency and heat-resistance. During the regeneration process of a cordierite filter, failure of ignition or incomplete burning propagation occurs, and additionally melts or cracks develop sometimes. In this study, the problems stated above are considered from a new standpoint, and a regeneration method that does not strictly depend on accumulated soot quantity is discussed. A filter made of SiC (Silicon carbide) possesses the requisite electric resistance and it's possible to heat it uniformly by using electricity. Accumulated soot can be uniformly incinerated not by burning propagation but by simultaneous ignition and burning of all accumulated soot. Silicon carbide has a higher resistance to heat than cordierite. Therefore, a self-heating filter made of SiC makes it possible to regenerate the filter in a wider range of accumulated soot.

Real-time and simultaneous measurements of particulate matter emissions (PME) under transient engine operating conditions have been carried out by several methods under 20 kinds of actual speed pattern driving schedules, and frequencies of each engine speed and load zone used for individual driving schedules at different laden weight are statistically analysed. On the other hand, PME are also estimated and compared with PME characteristics under steady engine operations. Applying these data, technical possibilities to replace comprehensive driving conditions of actual speed patterns with series of steady engine operating conditions and to obtain equivalent PME are studied. As a result of the study, it has been verified through the experiments that the three-point steady-state operations can yield nearly identical PME characteristics (g/test) to those of transient speed pattern operations, by using time-averaged values of the used engine speed and load.