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In many countries, cetane number and distillation properties of diesel fuel have been changing, thus affecting the performance of diesel engines. This paper describes investigations made on the effect of diesel fuel quality on white smoke (one of the important emissions of diesel engines). The result of simple laboratory tests simulating high altitude conditions plus field tests using three types of disel engines supplied with various types of diesel fuels is given. It was found that white smoke appearing tendency correlated best with cetane number and the 90 percent distillation point of the fuel. The field tests performed at high altitude correlated well with the simple laboratory tests.

Hydraulic fluids for automotive chassis systems are expected to have excellent low-temperature fluidity to get quick response at low temperature. A synthetic active suspension fluid has been designed by analyzing viscosity-temperature characteristics of Poly Methacrylate (PMA) / Poly a -Olefin (PAO) or diester mixtures based on the theoretical formula proposed by Carrasco et al. Measured kinematic viscosities are correlated with calculated ones very well at high temperature. On the other hand, there is some difference between measured and calculated low-temperature viscosities due to wax crystallization resulting from the mineral oils used as carrier oil of polymers. The theoretical formula of Carrasco et al. is applicable to polymer / synthetic base fluid mixtures even under the arctic condition in the case of no wax crystallization.

Engine dynamometer tests were conducted to evaluate the effect of detergent additives and gasoline components on Combustion Chamber Deposits (CCD). Additives with polyether amine (PEA) and with polyolefin amine (POA) chemicals were used. Three kinds of POA additives were used. Our results show that some kinds of additives and aromatics in gasoline increase CCD formation. Different polyolefin detergents show different tendency of CCD formation. The amount of CCD showed good relationship with the unwashed gum level of the gasoline. In general, smaller dosages produce less CCD. This means that detergents which have good IVD and PFID effectiveness at smaller dosage are better with regard to CCD. We analyzed the CCD by C13-NMR, GPC and IR method. The detergent contributes to CCD. Vehicle emissions tests were carried out to evaluate the effects of CCD on exhaust emissions.