Abstract: The performance and particulate emission of a diesel engine are affected by the consumption of lubricating oil。 Most studies on oil consumption mechanism of the cylinder have been done by using the experimental method, however they are very costly。 Therefore, it is very necessary to study oil consumption mechanism of the cylinder and obtain the accurate results by the calculation method。 Firstly, four main modes of lubricating oil consumption in cylinder are analyzed and then the oil consumption rate under common working conditions are calculated for the four modes based on an engine。 Then, the factors that affect the lubricating oil consumption such as working conditions, the second ring closed gap, the elastic force of the piston rings are also investigated for the four modes。 The calculation results show that most of the lubricating oil is consumed by evaporation on the liner surface。 Besides, there are three other findings: (1) The oil evaporation from the liner is determined by the working condition of an engine; (2) The increase of the ring closed gap reduces the oil blow through the top ring end gap but increases blow-by; (3) With the increase of the elastic force of the ring, both the left oil film thickness and the oil throw-off at the top ring decrease。 The oil scraping of the piston top edge is consequently reduced while the friction loss between the rings and the liner increases。 A neural network prediction model of the
lubricating oil consumption in cylinder is established based on the BP neural network theory, and then the model is trained and validated。 The main piston rings parameters which affect the oil consumption are optimized by using the BP neural network prediction model and 83517
the prediction accuracy of this BP neural network is within 8%, which is acceptable for normal engineering applications。 The oil consumption is also measured experimentally。 The relative errors of the calculated and experimental values are less than 10%, verifying the validity of the simulation results。 Applying the established simulation model and the validated BP network model is able to generate numerical results with sufficient accuracy, which significantly reduces experimental work and provides guidance for the optimal design
of the piston rings diesel engines。
Key words: diesel engine, lubricating oil consumption in cylinder, simulation, piston rings
1 Introduction
The performance, service life, and working costs of adiesel engine are affected by the consumption of lubricating oil。 The lubricating oil fled into the cylinder is not easy to be burned at high temperatures and leads to hard coke formed on the top surface of the piston, which affects the heat transfer of the piston and exposes the diesel engine piston to the risk of crack。 The wear of cylinder liner increases with the accumulation of carbon on the land of 柴油机缸内润滑油消耗分析英文文献和中文翻译:http://www.youerw.com/fanyi/lunwen_98513.html