Prediction and Analysis of Engine Friction Power of a Diesel Engine Influenced by Engine Speed, Load, and Lubricant Viscosity

IF 1.5 Q3 ENGINEERING, MECHANICAL
D. Singh, F. Gu, J. Fieldhouse, N. Singh, S. K. Singal
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引用次数: 13

Abstract

Automotive industries made a paradigm shift in selection of viscometrics of engine lubricant, from higher to lower viscosity grade, for improving fuel economy of vehicles. Engine fuel consumption is influenced by friction between the various engine components. Engine friction power (FP) of a direct injection diesel engine is calculated from the measured value of in-cylinder pressure signals at various operating conditions. For predicting FP, as a function of speed, load, and lubricant viscosity, a full factorial design of experiments (DOE) was formulated and an empirical correlation was developed. Response surface methodology (RSM) was used for analyzing the dominant parameters and their interactions, which influence engine friction power significantly. Predicted results of engine FP are in good agreement with measured values at all operating points. ANOVA and RSM analysis revealed that the significant parameters influencing engine FP are speed, load, viscosity, speed-load, and speed-viscosity. The effect of engine lubricant viscosity on friction power of a diesel engine was insignificant at low speed, whereas, at high speed, it played a vital role. The empirical relation developed for predicting FP is very useful in estimating engine friction power for various combinations of engine speeds, loads, and lubricant viscosity without running the engine.
转速、负荷和润滑油粘度对柴油机摩擦功率影响的预测与分析
为了提高汽车的燃油经济性,汽车工业在选择发动机润滑油的粘度指标方面进行了范式转变,从高粘度级转向低粘度级。发动机的燃油消耗受发动机各部件之间摩擦的影响。根据不同工况下缸内压力信号的实测值,计算了直喷柴油机的发动机摩擦功率(FP)。为了预测FP,作为速度,负载和润滑剂粘度的函数,制定了全因子实验设计(DOE),并开发了经验相关性。采用响应面法对影响发动机摩擦功率的主要参数及其相互作用进行了分析。发动机FP的预测结果与各工作点的实测值吻合较好。方差分析和RSM分析表明,转速、载荷、粘度、转速-载荷、转速-粘度对发动机FP有显著影响。发动机润滑油粘度对柴油机低速时摩擦功率的影响不大,而在高速时则起着至关重要的作用。为预测FP而开发的经验关系对于在不运行发动机的情况下估算发动机转速、负载和润滑剂粘度的各种组合的发动机摩擦功率非常有用。
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来源期刊
Advances in Tribology
Advances in Tribology ENGINEERING, MECHANICAL-
CiteScore
5.00
自引率
0.00%
发文量
1
审稿时长
13 weeks
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