低速柴油机气缸-活塞环组润滑及润滑油供应策略研究

Jiyun Zhang, JinHua Liu, Zhixiang Pan
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引用次数: 0

摘要

针对船用低速柴油机气缸外喷油润滑的特点,建立了十字头二冲程柴油机气缸套和活塞环组的润滑模型。采用正交试验设计方法,综合分析了“喷油正时”、“进油速度”和“喷油孔位置”三个因素对活塞环组份摩擦功损失的影响。结合遗传优化算法和BP神经网络,以活塞环组份摩擦损失最小为优化目标,并进一步对正交试验结果进行定量分析。优化设计结果表明:当缸套表面入口油膜厚度为3µm时,最优组合为“喷油正时(提前)+ 8ms,进油速度0.9g/kW”。h,注油孔位置角140°CA”。当表面入口油膜厚度为2µm时,最佳组合为“喷油正时(提前)+ 12ms,进油速度1.0g/kW”。h、注油孔位置角度100°CA”。
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Research on Lubrication and Lubricating Oil Supply Strategy of Low-speed Diesel Engine Cylinder-Piston Ring Pack
In view of the characteristics of Marine low speed diesel engine cylinder lubrication using external oil injection, a lubrication model for cross-head two-stroke diesel engine cylinder liner and piston ring pack was established. The orthogonal experimental design method is used to comprehensively analyze the influence of three factors, “oil injection timing”, “oil feed rate” and “oil injection hole position”, on the frictional work loss of the piston ring pack. Combined with genetic optimization algorithm and BP neural network, the optimization goal is to minimize the friction loss of piston ring pack, and further quantitative analysis of the orthogonal test results is carried out. The optimized design shows that: when the thickness of the oil film at the inlet of the cylinder liner surface is 3µm, the optimal combination is “oil injection timing (advance) + 8ms, oil feed rate 0.9g/kW. h, oil injection hole position angle 140°CA”. When the thickness of the oil film at the surface inlet is 2µm, the optimal combination is “oil injection timing (advance) + 12ms, oil feed rate 1.0g/kW. h, oil injection hole position angle 100°CA”.
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